CN109536983A - A kind of electrochemical method for synthesizing - Google Patents
A kind of electrochemical method for synthesizing Download PDFInfo
- Publication number
- CN109536983A CN109536983A CN201910107799.7A CN201910107799A CN109536983A CN 109536983 A CN109536983 A CN 109536983A CN 201910107799 A CN201910107799 A CN 201910107799A CN 109536983 A CN109536983 A CN 109536983A
- Authority
- CN
- China
- Prior art keywords
- substance
- electrochemistry region
- region
- electrochemistry
- make
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Pending
Links
- 238000002848 electrochemical method Methods 0.000 title claims abstract description 77
- 230000002194 synthesizing effect Effects 0.000 title claims abstract description 75
- 230000005518 electrochemistry Effects 0.000 claims abstract description 694
- 239000000126 substance Substances 0.000 claims abstract description 348
- OMOVVBIIQSXZSZ-UHFFFAOYSA-N [6-(4-acetyloxy-5,9a-dimethyl-2,7-dioxo-4,5a,6,9-tetrahydro-3h-pyrano[3,4-b]oxepin-5-yl)-5-formyloxy-3-(furan-3-yl)-3a-methyl-7-methylidene-1a,2,3,4,5,6-hexahydroindeno[1,7a-b]oxiren-4-yl] 2-hydroxy-3-methylpentanoate Chemical compound CC12C(OC(=O)C(O)C(C)CC)C(OC=O)C(C3(C)C(CC(=O)OC4(C)COC(=O)CC43)OC(C)=O)C(=C)C32OC3CC1C=1C=COC=1 OMOVVBIIQSXZSZ-UHFFFAOYSA-N 0.000 claims abstract description 231
- 239000002245 particle Substances 0.000 claims abstract description 117
- 230000008676 import Effects 0.000 claims abstract description 63
- 239000003792 electrolyte Substances 0.000 claims abstract description 41
- 239000000203 mixture Substances 0.000 claims description 112
- 230000005611 electricity Effects 0.000 claims description 66
- -1 dielectric Substances 0.000 claims description 47
- 238000000034 method Methods 0.000 claims description 44
- 239000003990 capacitor Substances 0.000 claims description 35
- 239000007789 gas Substances 0.000 claims description 34
- 238000002955 isolation Methods 0.000 claims description 30
- 239000002608 ionic liquid Substances 0.000 claims description 28
- 238000009413 insulation Methods 0.000 claims description 27
- OKTJSMMVPCPJKN-UHFFFAOYSA-N Carbon Chemical compound [C] OKTJSMMVPCPJKN-UHFFFAOYSA-N 0.000 claims description 10
- ATUOYWHBWRKTHZ-UHFFFAOYSA-N Propane Chemical compound CCC ATUOYWHBWRKTHZ-UHFFFAOYSA-N 0.000 claims description 10
- 229910052799 carbon Inorganic materials 0.000 claims description 10
- 239000001257 hydrogen Substances 0.000 claims description 9
- 229910052739 hydrogen Inorganic materials 0.000 claims description 9
- 150000002431 hydrogen Chemical class 0.000 claims description 8
- 238000004519 manufacturing process Methods 0.000 claims description 8
- VNWKTOKETHGBQD-UHFFFAOYSA-N methane Chemical group C VNWKTOKETHGBQD-UHFFFAOYSA-N 0.000 claims description 8
- 150000002500 ions Chemical class 0.000 claims description 6
- 239000007788 liquid Substances 0.000 claims description 6
- OTMSDBZUPAUEDD-UHFFFAOYSA-N Ethane Chemical compound CC OTMSDBZUPAUEDD-UHFFFAOYSA-N 0.000 claims description 5
- TVMXDCGIABBOFY-UHFFFAOYSA-N octane Chemical group CCCCCCCC TVMXDCGIABBOFY-UHFFFAOYSA-N 0.000 claims description 5
- 239000001294 propane Substances 0.000 claims description 5
- UFHFLCQGNIYNRP-UHFFFAOYSA-N Hydrogen Chemical compound [H][H] UFHFLCQGNIYNRP-UHFFFAOYSA-N 0.000 claims description 2
- 238000010189 synthetic method Methods 0.000 abstract description 4
- 239000004020 conductor Substances 0.000 description 20
- 238000003487 electrochemical reaction Methods 0.000 description 17
- 238000006243 chemical reaction Methods 0.000 description 11
- 238000004880 explosion Methods 0.000 description 10
- 239000003054 catalyst Substances 0.000 description 9
- 239000007787 solid Substances 0.000 description 6
- 230000002045 lasting effect Effects 0.000 description 3
- 239000000463 material Substances 0.000 description 3
- 239000012528 membrane Substances 0.000 description 3
- 125000006850 spacer group Chemical group 0.000 description 3
- IJGRMHOSHXDMSA-UHFFFAOYSA-N Atomic nitrogen Chemical compound N#N IJGRMHOSHXDMSA-UHFFFAOYSA-N 0.000 description 2
- CURLTUGMZLYLDI-UHFFFAOYSA-N Carbon dioxide Chemical compound O=C=O CURLTUGMZLYLDI-UHFFFAOYSA-N 0.000 description 2
- 239000003638 chemical reducing agent Substances 0.000 description 2
- 238000004891 communication Methods 0.000 description 2
- 150000001875 compounds Chemical class 0.000 description 2
- 239000007800 oxidant agent Substances 0.000 description 2
- 230000001590 oxidative effect Effects 0.000 description 2
- 239000001301 oxygen Substances 0.000 description 2
- 229910052760 oxygen Inorganic materials 0.000 description 2
- 229910052721 tungsten Inorganic materials 0.000 description 2
- 229910052720 vanadium Inorganic materials 0.000 description 2
- 229910052770 Uranium Inorganic materials 0.000 description 1
- 238000010521 absorption reaction Methods 0.000 description 1
- 150000001335 aliphatic alkanes Chemical class 0.000 description 1
- QVGXLLKOCUKJST-UHFFFAOYSA-N atomic oxygen Chemical compound [O] QVGXLLKOCUKJST-UHFFFAOYSA-N 0.000 description 1
- 230000009286 beneficial effect Effects 0.000 description 1
- 230000015572 biosynthetic process Effects 0.000 description 1
- 239000001569 carbon dioxide Substances 0.000 description 1
- 229910002092 carbon dioxide Inorganic materials 0.000 description 1
- 239000007795 chemical reaction product Substances 0.000 description 1
- 238000005868 electrolysis reaction Methods 0.000 description 1
- 238000005516 engineering process Methods 0.000 description 1
- 239000003063 flame retardant Substances 0.000 description 1
- 229910052738 indium Inorganic materials 0.000 description 1
- 239000012212 insulator Substances 0.000 description 1
- 229910052757 nitrogen Inorganic materials 0.000 description 1
- 229910000510 noble metal Inorganic materials 0.000 description 1
- 239000000047 product Substances 0.000 description 1
- 229910052761 rare earth metal Inorganic materials 0.000 description 1
- 239000011541 reaction mixture Substances 0.000 description 1
- 238000001308 synthesis method Methods 0.000 description 1
- 230000009466 transformation Effects 0.000 description 1
- 238000000108 ultra-filtration Methods 0.000 description 1
Classifications
-
- C—CHEMISTRY; METALLURGY
- C25—ELECTROLYTIC OR ELECTROPHORETIC PROCESSES; APPARATUS THEREFOR
- C25B—ELECTROLYTIC OR ELECTROPHORETIC PROCESSES FOR THE PRODUCTION OF COMPOUNDS OR NON-METALS; APPARATUS THEREFOR
- C25B1/00—Electrolytic production of inorganic compounds or non-metals
-
- C—CHEMISTRY; METALLURGY
- C25—ELECTROLYTIC OR ELECTROPHORETIC PROCESSES; APPARATUS THEREFOR
- C25B—ELECTROLYTIC OR ELECTROPHORETIC PROCESSES FOR THE PRODUCTION OF COMPOUNDS OR NON-METALS; APPARATUS THEREFOR
- C25B15/00—Operating or servicing cells
-
- C—CHEMISTRY; METALLURGY
- C25—ELECTROLYTIC OR ELECTROPHORETIC PROCESSES; APPARATUS THEREFOR
- C25B—ELECTROLYTIC OR ELECTROPHORETIC PROCESSES FOR THE PRODUCTION OF COMPOUNDS OR NON-METALS; APPARATUS THEREFOR
- C25B3/00—Electrolytic production of organic compounds
Landscapes
- Chemical & Material Sciences (AREA)
- Organic Chemistry (AREA)
- Engineering & Computer Science (AREA)
- Chemical Kinetics & Catalysis (AREA)
- Electrochemistry (AREA)
- Materials Engineering (AREA)
- Metallurgy (AREA)
- Inorganic Chemistry (AREA)
- Electric Double-Layer Capacitors Or The Like (AREA)
Abstract
The invention discloses a kind of electrochemical method for synthesizing, electrochemistry region is set alternately to contact or make substance A and substance B alternately to contact with electrochemistry region with substance A and substance B, so that the substance A is generated positive charged particle and electronics in the electrochemistry region, exports the electronics in the electrochemistry region and import.Electrochemical method for synthesizing disclosed in this invention will terminate Conventional electrochemical synthetic method and electrochemistry formated device to the history of electrolyte demand, provide new approach for efficient, long-life, Low-cost electric chemical synthesizer exploitation.
Description
Technical field
The present invention relates to electricity field, electrochemical field more particularly to a kind of electrochemical method for synthesizing.
Background technique
Electrochemical method for synthesizing is using very extensive, but all electrochemical method for synthesizing so far are between electrode
Transmitting non-electronic charged particle (such as proton, negative oxygen ion etc.) is necessary condition, means that so far all in this way
Non-electronic band electrochondria is connected to use the electrolyte that non-electronic charged particle is connected as necessary condition in electrochemical method for synthesizing
The electrolyte of son not only manufactures difficulty, using difficulty, but also will be greatly reduced electrolytic efficiency.If one kind can be invented not with electricity
The electrochemical method for synthesizing for existing for necessary condition of solution matter will be of great significance.Therefore, it is necessary to invent a kind of novel electrochemical
Learn synthetic method.
Summary of the invention
To solve the above-mentioned problems, technical solution proposed by the present invention is as follows:
Scheme 1: a kind of electrochemical method for synthesizing makes electrochemistry region alternately contact or make substance A with substance A and substance B
Alternately contacted with substance B and electrochemistry region, or so that electrochemistry region and substance A is contacted with each other and make the electrochemistry region with
The mutual makes discontinuous contact of substance B, or so that electrochemistry region is contacted with each other with substance B and keep the electrochemistry region and substance A mutual
Makes discontinuous contact makes the substance A generate positive charged particle and electronics in the electrochemistry region, makes the electricity in the electrochemistry region
Son export imports.
Scheme 2: a kind of electrochemical method for synthesizing makes electrochemistry region alternately contact or make substance A with substance A and substance B
Alternately contacted with substance B and electrochemistry region, or so that electrochemistry region and substance A is contacted with each other and make the electrochemistry region with
The mutual makes discontinuous contact of substance B, or so that electrochemistry region is contacted with each other with substance B and keep the electrochemistry region and substance A mutual
Makes discontinuous contact makes the substance A generate positive charged particle and electronics in the electrochemistry region, makes electronics in the electrochemical school district
It exports and imports between domain and region B;
Or, electrochemistry region is made alternately to contact or make substance A and substance B to replace with electrochemistry region with substance A and substance B
Contact, or so that electrochemistry region and substance A is contacted with each other and is made the electrochemistry region and the mutual makes discontinuous contact of substance B, or make
Electrochemistry region and substance B contact with each other and make the electrochemistry region and the mutual makes discontinuous contact of substance A, the substance A to be made to exist
The electrochemistry region generates positive charged particle and electronics, and electronics is made to export importing between the electrochemistry region and region B,
The electrochemistry region is correspondingly arranged with the region B;
Or, electrochemistry region is made alternately to contact or make substance A and substance B to replace with electrochemistry region with substance A and substance B
Contact, or so that electrochemistry region and substance A is contacted with each other and is made the electrochemistry region and the mutual makes discontinuous contact of substance B, or make
Electrochemistry region and substance B contact with each other and make the electrochemistry region and the mutual makes discontinuous contact of substance A, the substance A to be made to exist
The electrochemistry region generates positive charged particle and electronics, and electronics is made to export importing between the electrochemistry region and region B;
The electrochemistry region and the region B have non-electronic conducting electrical relation, or, the electrochemistry region through insulation, every
In exhausted space, electrolyte, dielectric, capacitor, plasma, ionic liquid, ionized gas, solion and electronic conduction area
It is at least one that there is non-electronic conducting electrical relation with the region B.
Scheme 3: a kind of electrochemical method for synthesizing makes electrochemistry region A alternately contact or make substance A with substance A and substance B
Alternately contacted with substance B and electrochemistry region A and make electrochemistry region B replace with the substance B and the substance A contact or
It contacts substance B and substance A alternately with electrochemistry region B, or electrochemistry region A and substance A is made to contact with each other and make the electricity
Chemical regions A and the mutual makes discontinuous contact of substance B and so that electrochemistry region B and substance A is contacted with each other and make the electrochemical school district
Domain B and the mutual makes discontinuous contact of substance B, or electrochemistry region A and substance B is made to contact with each other and make the electrochemistry region A and object
The mutual makes discontinuous contact of matter A and so that electrochemistry region B is contacted with each other with substance B and keep the electrochemistry region B and substance A mutual
Makes discontinuous contact, or electrochemistry region A and substance B is made to contact with each other and make the electrochemistry region A and the mutual makes discontinuous contact of substance A
And electrochemistry region B and substance A is made to contact with each other and make the electrochemistry region B and the mutual makes discontinuous contact of substance B, make described
Substance A generates positive charged particle and electronics in the electrochemistry region A, generates the substance A just in the electrochemistry region B
Charged particle and electronics make electronics export importing between the electrochemistry region A and the electrochemistry region B;
Or, electrochemistry region A is made alternately to contact or make substance A and substance B and electrochemistry region A to hand over substance A and substance B
Substance B and substance A and electrochemistry are contacted or made for contacting and replacing electrochemistry region B with the substance B and the substance A
Region B is alternately contacted, or so that electrochemistry region A and substance A is contacted with each other and kept the electrochemistry region A and substance B mutually disconnected
Continued access is touched and is made electrochemistry region B and substance A to contact with each other and makes the electrochemistry region B and the mutual makes discontinuous contact of substance B,
Or so that electrochemistry region A and substance B is contacted with each other and make the electrochemistry region A and the mutual makes discontinuous contact of substance A and make electricity
Chemical regions B and substance B contact with each other and make the electrochemistry region B and the mutual makes discontinuous contact of substance A, or make electrochemistry region
A and substance B contact with each other and make the electrochemistry region A and the mutual makes discontinuous contact of substance A and make electrochemistry region B and substance
A contacts with each other and makes the electrochemistry region B and the mutual makes discontinuous contact of substance B, makes the substance A in the electrochemistry region A
Positive charged particle and electronics are generated, so that the substance A is generated positive charged particle and electronics in the electrochemistry region B, makes electronics
It exports and imports between the electrochemistry region A and the electrochemistry region B, the electrochemistry region A and the electrochemical school district
Domain B is correspondingly arranged;
Or, electrochemistry region A is made alternately to contact or make substance A and substance B and electrochemistry region A to hand over substance A and substance B
Substance B and substance A and electrochemistry are contacted or made for contacting and replacing electrochemistry region B with the substance B and the substance A
Region B is alternately contacted, or so that electrochemistry region A and substance A is contacted with each other and kept the electrochemistry region A and substance B mutually disconnected
Continued access is touched and is made electrochemistry region B and substance A to contact with each other and makes the electrochemistry region B and the mutual makes discontinuous contact of substance B,
Or so that electrochemistry region A and substance B is contacted with each other and make the electrochemistry region A and the mutual makes discontinuous contact of substance A and make electricity
Chemical regions B and substance B contact with each other and make the electrochemistry region B and the mutual makes discontinuous contact of substance A, or make electrochemistry region
A and substance B contact with each other and make the electrochemistry region A and the mutual makes discontinuous contact of substance A and make electrochemistry region B and substance
A contacts with each other and makes the electrochemistry region B and the mutual makes discontinuous contact of substance B, makes the substance A in the electrochemistry region A
Positive charged particle and electronics are generated, so that the substance A is generated positive charged particle and electronics in the electrochemistry region B, makes electronics
It exports and imports between the electrochemistry region A and the electrochemistry region B;The electrochemistry region A and the electrochemical school district
Domain B have non-electronic conducting electrical relation, or, the electrochemistry region A through insulation, isolation space, electrolyte, dielectric,
At least one of capacitor, plasma, ionic liquid, ionized gas, solion and electronic conduction area and the electrochemistry
Region B has non-electronic conducting electrical relation.
Scheme 4: a kind of electrochemical method for synthesizing makes electrochemistry region that object is contacted or made with the mixture of substance A and substance B
The mixture of matter A and substance B is contacted with electrochemistry region, and the substance A is made to generate positive charged particle in the electrochemistry region
And electronics, it exports the electronics in the electrochemistry region and imports;
Or, making the mixture makes discontinuous contact of electrochemistry region and substance A and substance B or making the mixture of substance A and substance B
With electrochemistry region makes discontinuous contact, so that the substance A is generated positive charged particle and electronics in the electrochemistry region, make the electricity
The electronics of chemical regions, which exports, to be imported.
Scheme 5: a kind of electrochemical method for synthesizing makes electrochemistry region that object is contacted or made with the mixture of substance A and substance B
The mixture of matter A and substance B is contacted with electrochemistry region, and the substance A is made to generate positive charged particle in the electrochemistry region
And electronics, so that electronics is exported importing between the electrochemistry region and region B;
Or, making the mixture makes discontinuous contact of electrochemistry region and substance A and substance B or making the mixture of substance A and substance B
With electrochemistry region makes discontinuous contact, so that the substance A is generated positive charged particle and electronics in the electrochemistry region, electronics is made to exist
It exports and imports between the electrochemistry region and region B;
Or, making electrochemistry region that the mixture of substance A and substance B and electricity are contacted or made with the mixture of substance A and substance B
Chemical regions contact, makes the substance A generate positive charged particle and electronics in the electrochemistry region, makes electronics in the electrification
It exports and imports between school district domain and region B, the electrochemistry region and the region B are correspondingly arranged;
Or, making the mixture makes discontinuous contact of electrochemistry region and substance A and substance B or making the mixture of substance A and substance B
With electrochemistry region makes discontinuous contact, so that the substance A is generated positive charged particle and electronics in the electrochemistry region, electronics is made to exist
It exports and imports between the electrochemistry region and region B, the electrochemistry region and the region B are correspondingly arranged;
Or, making electrochemistry region that the mixture of substance A and substance B and electricity are contacted or made with the mixture of substance A and substance B
Chemical regions contact, makes the substance A generate positive charged particle and electronics in the electrochemistry region, makes electronics in the electrification
It exports and imports between school district domain and region B;The electrochemistry region and the region B have non-electronic conducting electrical relation, or,
The electrochemistry region is through insulation, isolation space, electrolyte, dielectric, capacitor, plasma, ionic liquid, ion-gas
At least one of body, solion and electronic conduction area have non-electronic conducting electrical relation with the region B;
Or, making the mixture makes discontinuous contact of electrochemistry region and substance A and substance B or making the mixture of substance A and substance B
With electrochemistry region makes discontinuous contact, so that the substance A is generated positive charged particle and electronics in the electrochemistry region, electronics is made to exist
It exports and imports between the electrochemistry region and region B;The electrochemistry region and the region B have non-electronic conducting electricity
Relationship, or, the electrochemistry region through insulation, isolation space, electrolyte, dielectric, capacitor, plasma, ionic liquid,
At least one of ionized gas, solion and electronic conduction area have non-electronic conducting electrical relation with the region B.
Scheme 6: a kind of electrochemical method for synthesizing makes electrochemistry region A contact or make with the mixture of substance A and substance B
The mixture of substance A and substance B is contacted with electrochemistry region A, contacts electrochemistry region B and the mixture of substance A and substance B
Or contact the mixture of substance A and substance B with electrochemistry region B, generate the substance A just in the electrochemistry region A
Charged particle and electronics make the substance A generate positive charged particle and electronics in the electrochemistry region B, make electronics described
It exports and imports between electrochemistry region A and the electrochemistry region B;
Or, make electrochemistry region A contact or make with the mixture of substance A and substance B the mixture of substance A and substance B with
Electrochemistry region A contact, makes electrochemistry region B that the mixing of substance A and substance B is contacted or made with the mixture of substance A and substance B
Object is contacted with electrochemistry region B, so that the substance A is generated positive charged particle and electronics in the electrochemistry region A, is made the object
Matter A generates positive charged particle and electronics in the electrochemistry region B, makes electronics in the electrochemistry region A and the electrochemistry
It exports and imports between the B of region, the electrochemistry region A is correspondingly arranged with the electrochemistry region B;
Or, make electrochemistry region A contact or make with the mixture of substance A and substance B the mixture of substance A and substance B with
Electrochemistry region A contact, makes electrochemistry region B that the mixing of substance A and substance B is contacted or made with the mixture of substance A and substance B
Object is contacted with electrochemistry region B, so that the substance A is generated positive charged particle and electronics in the electrochemistry region A, is made the object
Matter A generates positive charged particle and electronics in the electrochemistry region B, makes electronics in the electrochemistry region A and the electrochemistry
It exports and imports between the B of region;The electrochemistry region A and electrochemistry region B has non-electronic conducting electrical relation, or,
The electrochemistry region A is through insulation, isolation space, electrolyte, dielectric, capacitor, plasma, ionic liquid, ion-gas
At least one of body, solion and electronic conduction area have non-electronic conducting electrical relation with the electrochemistry region B;
Or, making the mixture makes discontinuous contact of electrochemistry region A and substance A and substance B or making the mixing of substance A and substance B
Object and electrochemistry region A makes discontinuous contact make the mixture makes discontinuous contact of electrochemistry region B and substance A and substance B or make substance A
With the mixture and electrochemistry region B makes discontinuous contact of substance B, the substance A is made to generate just band electrochondria in the electrochemistry region A
Son and electronics make the substance A generate positive charged particle and electronics in the electrochemistry region B, make electronics in the electrochemistry
It exports and imports between region A and the electrochemistry region B;
Or, making the mixture makes discontinuous contact of electrochemistry region A and substance A and substance B or making the mixing of substance A and substance B
Object and electrochemistry region A makes discontinuous contact make the mixture makes discontinuous contact of electrochemistry region B and substance A and substance B or make substance A
With the mixture and electrochemistry region B makes discontinuous contact of substance B, the substance A is made to generate just band electrochondria in the electrochemistry region A
Son and electronics make the substance A generate positive charged particle and electronics in the electrochemistry region B, make electronics in the electrochemistry
It exports and imports between region A and the electrochemistry region B, the electrochemistry region A is correspondingly arranged with the electrochemistry region B;
Or, making the mixture makes discontinuous contact of electrochemistry region A and substance A and substance B or making the mixing of substance A and substance B
Object and electrochemistry region A makes discontinuous contact make the mixture makes discontinuous contact of electrochemistry region B and substance A and substance B or make substance A
With the mixture and electrochemistry region B makes discontinuous contact of substance B;The substance A is set to generate just band electrochondria in the electrochemistry region A
Son and electronics make the substance A generate positive charged particle and electronics in the electrochemistry region B, make electronics in the electrochemistry
It exports and imports between region A and the electrochemistry region B;The electrochemistry region A and electrochemistry region B has non-electronic
Be connected electrical relation, or, the electrochemistry region A through insulation, isolation space, electrolyte, dielectric, capacitor, plasma,
At least one of ionic liquid, ionized gas, solion and electronic conduction area have non-electronic with the electrochemistry region B
Electrical relation is connected.
The aforementioned all schemes of the present invention optionally use alternating source during electronics is exported and imported.
The aforementioned all schemes of the present invention further can selectively select the export for making electronics to import as work normality.
The aforementioned all schemes of the present invention further can selectively select that the substance A is made to be set as hydrogen, the substance B
It is set as carbon;Or the substance A is made to be set as hydrogen, the substance B is set as carbon, and makes the product first of the electrochemical method for synthesizing
Alkane, ethane, propane are octane.
The aforementioned all schemes containing the electrochemistry region of the present invention further can selectively select to make the electricity
Chemical regions rotation setting.
The aforementioned all schemes containing the electrochemistry region A and the electrochemistry region B of the present invention can be selected further
It selects to selecting property to make the electrochemistry region A rotation setting, and makes the electrochemistry region B rotation setting.
In the present invention, the substance A and substance B reaction generate the substance A and the substance B reaction product
Process is to absorb the process of energy.
In the present invention, it is work normality that the export of the electronics in the electrochemistry region, which imports,.
In the present invention, it is that work is normal that export of the electronics between the electrochemistry region A and the electrochemistry region B, which imports,
State.
In the present invention, it is work normality that export of the electronics between the electrochemistry region and the region B, which imports,.
In the present invention, so-called " it is work normality that the export of the electronics in the electrochemistry region, which imports, " refers to from the electricity
It is to continue working process that chemical regions, which export electronics and import electronics to the electrochemistry region, i.e., electrification disclosed in this invention
Synthetic method is learned in working condition, exporting electronics from the electrochemistry region and import electronics to the electrochemistry region is one
The lasting process of kind.In other words, corresponding and described electrochemistry region and alternation are electric with alternating current in the electrochemistry region
Stream is opposite to should be the process of continuing working.
In the present invention, it is work normality that the export of the electronics between the electrochemistry region and the region B, which imports,.
In the present invention, so-called " it is that work is normal that the export of the electronics between the electrochemistry region and the region B, which imports,
State " refers to export of the electronics from the electrochemistry region to the region B and electronics from the region B to the electrochemistry region
It imports to continue working process, i.e., electrochemical method for synthesizing disclosed in this invention is in working condition, from the electrochemical school district
Domain exports electronics, the region Xiang Suoshu B imports electronics, electronics is exported from the region B and imports electronics to the electrochemistry region
For a kind of lasting process.In other words, the electrochemistry region and the region B electrification corresponding and described with alternating current
The school district domain and region B is opposite with alternating current should be the process of continuing working.
In the present invention, it is that work is normal that the export of the electronics between the electrochemistry region A and the electrochemistry region B, which imports,
State.
In the present invention, so-called " export of the electronics between the electrochemistry region A and the electrochemistry region B is imported
For the normality that works " refer to electronics from the electrochemistry region A to the electrochemistry region B and electronics from the electrochemistry region B
It is imported to the export of the electrochemistry region A to continue working process, i.e., electrochemical method for synthesizing disclosed in this invention is in work
When making state, electronics is imported, from the electrochemistry region from electrochemistry region A export electronics, Xiang Suoshu electrochemistry region B
It is a kind of lasting process that B, which exports electronics and imports electronics to the electrochemistry region A,.In other words, the electrochemistry region A
With the electrochemistry region B with alternating current the corresponding and described electrochemistry region A and electrochemistry region B and alternating current
It is opposite to should be the process of continuing working.
In the present invention, disclosed method is the chemical energy electric energy conversion method at single electrode, in specific implementation, optional
It selects to selecting property using the electrochemistry region as an electrode, using electric conductor as another electrode, two electrode cooperatings,
The conversion of chemical energy electric energy is completed, is selectively chosen using an electrochemistry region as an electrode, by another institute
Electrochemistry region is stated as another electrode, two electrode cooperatings complete the conversion of chemical energy electric energy.
In the present invention, disclosed a part of method, which is selectively chosen, serves as manufacture half electrochemical appliance (i.e. electricity
Include the device region of an electrode in chemical devices), it is also selectively chosen and serves as manufacture electrochemical appliance.
In the present invention, disclosed method, which is selectively chosen, serves as manufacture half electrochemistry formated device (i.e. electrification
Include the device region of an electrode in method), it is also selectively chosen and serves as manufacture electrochemistry formated device.
In the present invention, there is non-electronic electric conduction through electronic conduction area and the region B including the electrochemistry region
In the method for relationship, be selectively chosen make one in the electrochemistry region and the region B through capacitor or through non-
Electronic conduction area (such as the electrolyte such as proton exchange membrane) is again through external circuit and another electric communication, it is possible to realize normality
Work.
It is non-electronic having including the electrochemistry region A through electronic conduction area and the electrochemistry region B in the present invention
In the method that electrical relation is connected, it is selectively chosen one made in the electrochemistry region A and the electrochemistry region B
Through capacitor or through non-electronic conducting area (such as the electrolyte such as proton exchange membrane) again through external circuit and another electric communication, so
Normality work may be implemented.
In the present invention, so that charged particle is stored in the means in electrochemistry region as realizing, be selectively chosen and pass through
The alternating of the contact of two kinds of metabolies and electric current that make electrochemistry region and participation electrochemical reaction changes to realize, also optional
Select to selecting property to make that two kinds of substances for participating in electrochemical reaction alternately contacts with electrochemistry region and the alternating of electric current changes
It realizes, however two electrodes of electrochemical reaction are (for example, the electrochemistry region and electric conductor, the electrochemistry region A and described
Electrochemistry region B, the electrochemistry region and the region B) between the conducting of non-electronic charged particle then may exist
It can be not present.
In the present invention, charged particle is set to be stored in the means in electrochemistry region as realizing, being selectively chosen makes electricity
The mixture contact of two kinds of substances of chemical regions and participation electrochemical reaction and the alternating of electric current change to realize, may be selected
Property select to make electrochemistry region and participate in the mixture makes discontinuous contact of two kinds of substances of electrochemical reaction and the alternating of electric current
Variation is to realize, however two electrodes of electrochemical reaction are (for example, the electrochemistry region and electric conductor, the electrochemistry region A
And the electrochemistry region B, the electrochemistry region and the region B) between the conducting of non-electronic charged particle then can be with
In the presence of can also be not present.
In the present invention, the substance A used in the electrochemical method for synthesizing and substance B are with the substance A and the object
In the presence of the form of the mixture of matter B, rubbing with the substance A and the substance B further can be selectively selected
You exist than the form of mixture, or to deposit in the form of the mixture of the explosion limit substance A below and the substance B
, or to exist in the form of the mixture of the local explosion limit substance A below and the substance B, or with explosion limit
The form of the mixture of the above substance A and the substance B exists, or with the substance A more than local explosion limit
Exist with the form of the mixture of the substance B.
In the present invention, the mixture of so-called substance A and substance B further can selectively select to be set as substance A and object
Molar mixture, the explosion limit substance A below of matter B and mixture, the local explosion limit substance A below of substance B
With it is more than the mixture of more than mixture of substance B, explosion limit substance A and substance B or local explosion limit substance A and
The mixture of substance B.
In the present invention, so-called molar mixture refers to that the molar concentration rate of mixture is positive and negative in chemical reaction molar ratio
Mixture within 10%.
In the present invention, electrochemistry region state corresponding with alternating electromotive force and alternating current is to continue working
Journey.
In the present invention, electrochemistry region A state corresponding with alternating electromotive force and alternating current is to continue working
Process.
In the present invention, electrochemistry region B state corresponding with alternating electromotive force and alternating current is to continue working
Process.
The electrochemical method for synthesizing disclosed in this invention is corresponding with alternating electromotive force and alternating current, i.e. electrochemistry
Region is corresponding with alternating electromotive force and alternating current.
In the present invention, relationship is connected for the electricity that non-electronic charged particle is formed, is selectively chosen through non-electronic
Relationship is connected in the direct electricity that charged particle is formed, and relationship, warp is connected in the electricity formed through non-electronic charged particle reciprocating vibration
One of electricity conducting relationship that capacitance relation is formed, secondly conjunction or thirdly conjunction.
In the present invention, relationship is connected for the electricity that non-electronic charged particle is formed, is selectively chosen including through exhausted
The electrical relation that alternating current can be made to be connected of edge body, dielectric and the conducting body isolation of non-electronic charged particle.
In the present invention, in two electrodes (for example, the electrochemistry region and electric conductor, the electrochemistry region A and the electricity
Chemical regions B, the electrochemistry region and the region B) between there are in the method for electrolyte, non-electronic charged particle can both be worn
More electrolyte reaches another electrode from an electrode, can also realize the work that alternating current is connected by reciprocating vibration in the electrolyte
With.
In the present invention, it is more big more be conducive to electrochemistry that capacitance is formed by between the electrochemistry region and the region B
The promotion of reaction density, therefore when being electrochemically reacted using the method disclosed in the present, the electrochemical school district should be made
Capacitance between domain and the region B increases as much as possible.
It, can be in the electrochemical school district in order to increase the capacitance between the electrochemistry region and the region B in the present invention
Plasma, ionic liquid, ionized gas or solion are set between domain and the region B, and make ion in the electrification
It is vibrated between school district domain and the region B, and/or vibrates in the electrochemistry areas adjacent and oscillated around in the region B,
To realize the purpose for increasing the capacitance between the electrochemistry region and the region B.
In the present invention, it is more big more be conducive to electricity that the electrochemistry region A and the electrochemistry region B are formed by capacitance
The promotion of density is chemically reacted, therefore when being electrochemically reacted using the method disclosed in the present, the electrification should be made
Capacitance between school district domain A and the electrochemistry region B increases as much as possible.
It, can be described in order to increase the capacitance between the electrochemistry region A and the electrochemistry region B in the present invention
Plasma, ionic liquid, ionized gas, solion and electronics are set between electrochemistry region A and the electrochemistry region B
At least one of area is connected, and vibrates ion between the electrochemistry region A and the electrochemistry region B, and/or
The electrochemistry region A is oscillated around and is oscillated around in the electrochemistry region B, increases the electrochemistry region A to realize
The purpose of capacitance between the electrochemistry region B.
In the present invention, between the electrochemistry region and the region B and in the electrochemistry region A and the electrification
It is more big more be conducive to the promotion of electrochemical reaction density that capacitance is formed by between the B of school district domain, therefore public using present invention institute
When the method opened is electrochemically reacted, should make between the electrochemistry region and the region B and the electrochemistry region A and
Capacitance between the electrochemistry region B increases as much as possible.
Electrochemical method for synthesizing disclosed in this invention, there are electrolysis can be reduced in the case where electrolyte between two electrodes
Matter load extends its service life and is conducive to the balance and stability operation of system.
In the present invention, in the method that electrochemistry region only has electronic conduction channel (the i.e. described electrochemistry region with it is described
Between the B of region, interior circuit or external circuit between the electrochemistry region A and the electrochemistry region B are in electronics and non-electronic band
Charged particle state of isolation), the electrochemistry region participate in electrochemical reaction different material between alternate change physical environment and
The electrochemistry region is contacted with the mixture for the different material for participating in electrochemical reaction, and non-electronic charged particle can stored
In the electrochemistry region, the change of physical environment or makes the electrochemistry region and participate in the different material of electrochemical reaction
Mixture contact can make the non-electronic charged particle for being stored in the electrochemistry region participate in reaction realization in the next step
Electrochemical process eliminates the necessity that non-electronic charged particle is removed from electrochemistry region.Express herein, in traditional electrification
It learns in synthetic method, electrochemistry region (i.e. electrode) includes at least two kinds of charged particle conductings, such as an electronic conduction channel,
One proton conductive channel.
In the present invention, electrochemistry region alternative selects one of the electrode for being set as electrochemical reaction or electrode
Point, the region B alternative selection is set as the electrode of electrochemical reaction or a part of electrode, and the electrochemistry region A can
Selectivity selection is set as the electrode of electrochemical reaction or a part of electrode, and the electrochemistry region B alternative selection is set as
The electrode of electrochemical reaction or a part of electrode.
In the present invention, it can be selected according to the operating temperature of the property and the electrochemistry region of the substance A and the substance B
Select different catalyst.
In the present invention, Xiang Suoshu electrochemistry region import concentration proportion in the local explosion limit substance A below and
The mixture of the substance B may include fire retardant, such as nitrogen, carbon dioxide etc. are added in the mixture of hydrogen and oxygen.
In the present invention, the substance A and the substance B refer to that electrochemical reaction occurs in the electrochemistry region
Substance.
In the present invention, it can react after the substance A and substance B absorption electric energy and generate compound, or external
It can react after feed electric energy and generate compound.
In the present invention, eliminating from the necessity that electrochemistry region removes non-electronic charged particle means only to need to remove electricity
Son, rather than electronics charged particle (such as proton) can store in the electrochemistry region that it is generated and the participation electricity during next
Chemical reaction, it means that It is not necessary to the interior circuit or outer that centainly there is non-electronic charged particle channel to constitute between two electrodes
Circuit, it is only necessary to which electrochemical process can be realized in electronic conduction circuit, in this approach, is selectively chosen electricity in it
The conducting on road is that the reciprocating vibration of charged particle in capacitor and/or its internal part by being formed between its internal part is realized
, and using external circuit output electric energy and/or absorb electric energy.
In the present invention, eliminating from the necessity that electrochemistry region removes two kinds of charged particles means only to need to remove electricity
Son, and another charged particle (such as proton) can store in the electrochemistry region that it is generated and the participation electricity during next
Chemical reaction, it means that It is not necessary to the interior circuit or outer that centainly there is non-electronic charged particle channel to constitute between two electrodes
Circuit, it is only necessary to which electrochemical process can be realized in electronic conduction circuit, and in this approach, the conducting of interior circuit is to pass through
The reciprocating vibration of charged particle is realized in the capacitor and/or its internal part formed between its internal part, and utilizes dispatch from foreign news agency
Road exports electric energy and/or absorbs electric energy.
In the present invention, the electrochemistry region, which is selectively chosen, is set as three-diemsnional electrode.
In the present invention, the electrochemistry region A, which is selectively chosen, is set as three-diemsnional electrode.
In the present invention, the electrochemistry region B, which is selectively chosen, is set as three-diemsnional electrode.
In the present invention, the region B, which is selectively chosen, is set as three-diemsnional electrode.
In the present invention, such as there is non-electronic conducting electrical relation using Y and X as synonym, Y and X, the electronics of the Y is led
The form of presentation imported out refers to that the Y, the X and electronics export import the composition that circuit three is same closed circuit
Part is selectively chosen electronics export importing circuit being set as external circuit, and non-electronic conducting electrical relation is formed
Circuit be set as interior circuit.
In the present invention, such as using U, W and V as synonym, U has non-electronic conducting electrical relation through W and V, and electronics is in institute
The form of presentation for exporting importing between U and the V is stated, refers to that the U, the W, the V and electronics export import circuit
It is the component part of same closed circuit, is selectively chosen and electronics export importing circuit is set as external circuit, and will be non-
Electronic conduction electrical relation is formed by circuit and is set as interior circuit.
In the present invention, the area Jie electricity that so-called " area alternating current Jie electricity " refers to alternating current is selectively chosen and sets
For a part of relative subject, also alternative selection is set as the conduction region contacted with relative subject, is also selectively chosen
It is set as the conduction region that there is capacitance relation with relative subject.It includes that the area alternating current Jie electricity is this that so-called relative subject, which is exactly in A,
A in description.
In the present invention, so-called " alternating electromotive force " refers to that the changed electromotive force of electromotive force, such as direction become
The changed electromotive force of electromotive force or size of change.
In the present invention, so-called " alternating current " refers to the changed electric current of electric current, such as the changed electricity in direction
Stream, the changed electric current of size or alternating current.
In the present invention, so-called " alternating current " is selectively chosen the electric current for being set as the variation of electric current generating period,
Such as electric current or alternating current that electric current, the size generating period of direction generating period variation change.
In the present invention, so-called alternating current refers to the alternating current changed by sinusoidal rule.
In the present invention, so-called AC power source refers to the alternating source that electric current is changed by sinusoidal rule.
In the present invention, there is so-called A and B non-electronic conducting electrical relation to refer to having on interior circuit between A and B
Non-electronic conducting electrical relation, and its external circuit is selectively chosen electronic conduction relationship;Or, so-called A and B has non-electrical
Son conducting electrical relation, which refers to, has non-electronic conducting electrical relation on external circuit between A and B, and its interior circuit may be selected
Select electronic conduction relationship to property.
In the present invention, it is so-called " the electrochemistry region through insulation, isolation space, electrolyte, dielectric, capacitor, etc.
At least one of gas ions, ionic liquid, ionized gas, solion and electronic conduction area have non-electrical with the region B
Son conducting electrical relation " include the electrochemistry region and the region B through electronic conduction area, insulator, dielectric and/or from
The non-electronic conducting electrical relation that two solion ponds of son conducting body isolation have.In this approach, it optionally selects
Selecting makes at least one in the electrochemistry region and the region B and capacitive region and/or non-electronic charged particle transmitter shape
At electrical relation.
In the present invention, it is so-called " the electrochemistry region A through insulation, isolation space, electrolyte, dielectric, capacitor,
At least one of plasma, ionic liquid, ionized gas, solion and electronic conduction area and the electrochemistry region B
With non-electronic conducting electrical relation " it include the electrochemistry region A and the electrochemistry region B through electronic conduction area, insulation
The non-electronic conducting electrical relation that two solion ponds of body, dielectric and/or ion conducting body isolation have.In this method
In, be selectively chosen make at least one in the electrochemistry region A and the electrochemistry region B with capacitive region and/or
Non-electronic charged particle transmitter forms electrical relation.
In the present invention, so-called " electronic conduction area " refers to that conduct electrons are not turned on the region of non-electronic charged particle, can
Selectively selection is set as metallic conductor area, carbon conductor region etc..
In the present invention, so-called " non-electronic charged particle transmitter " refer to non-conducting electronics but proton conducting or it is specific from
The substance of son, i.e. electrolyte in Conventional electrochemical method, can be according to the electrochemical properties of the reducing agent and the oxidant
Non-electronic charged particle transmitter is selected, such as when the reducing agent is H2, the oxidant is O2When, the non-electronic electrification
Particle conduction object alternative selects proton exchange membrane.
In the present invention, select electronic conduction area shape when, should for the purpose of increasing its capacitance with neighbors into
Row selection.
In the present invention, so-called " non-electronic conducting electrical relation " refers to the electricity formed through the charged particle other than electronics
Conducting relationship or the electricity to be formed conducting relationship of standing facing each other through electronics, for example, relationship, non-electronic electrification is connected in the electricity that capacitor is formed
The electricity conducting relationship etc. that particle reciprocating vibration is formed.
In the present invention, so-called " capacitor " be selectively chosen be set as electrolytic capacitor, super capacitor, electric double layer capacitance,
All capacitors such as pseudo capacitance, fake capacitance.
In the present invention, so-called " electrolyte " refer to all be arranged between two electrode of electrochemical appliance only allow it is specific
The substance that charged particle passes through but electronics is not allowed to pass through can be solid, liquid or membranous body etc., such as the proton of PEMFC
Film and solid oxide electrolyte etc..
In the present invention, so-called " electrochemistry region " refers to that the region of electrochemical reaction can occurs in all, for example including
Catalyst, ultra microstructure and/or region at a set temperature, then metallic region for example at a set temperature.
It is so-called to refer to " including catalyst, ultra microstructure and/or electrochemistry region at a set temperature " in the present invention
The electrochemistry region or including catalyst or including ultra microstructure or under the set temperature or the electrification
School district domain includes two or three in these three conditions.
In the present invention, so-called " ultra microstructure " refers to the microcosmic knot that can cause electrochemical reaction under setting condition
Structure.
In the present invention, so-called electrochemistry region, so-called region B, so-called electrochemistry region A, so-called electrochemistry
Region B, so-called electric conductor are equal with electrode.
In the present invention, the region that electronics export imports is equal with electrode.
In the present invention, it is selectively chosen between electrode with dielectric capacitance relationship.
It in the present invention, is selectively chosen, the electrochemistry region and electric conductor have dielectric capacitance relationship, and electricity is situated between
Matter can be gas, liquid, solid or vacuum.
In the present invention, it is selectively chosen, the electrochemistry region and the region B have dielectric capacitance relationship,
Dielectric can be gas, liquid, solid or vacuum.
It in the present invention, is selectively chosen, the electrochemistry region A and the electrochemistry region B have dielectric capacitance
Relationship, dielectric can be gas, liquid, solid or vacuum.
In the present invention, so-called " dielectric capacitance relationship " refers to the capacitance relation through dielectric formation, and dielectric can be with
It is gas, liquid, solid or vacuum.
In the present invention, so-called " local explosion limit " refers under conditions of the electrochemistry region, the substance A and
The concentration ratio that the substance B cannot explode.
In the present invention, include the catalyst method in, the catalyst be set as include noble metal catalyst, or
The catalyst be set as include rare earth element catalyst.
In the present invention, so-called interpolar spacer refers to make to have required for non-electronic conducting electrical relation between electrode
Substance (including vacuum), such as electrolyte, dielectric etc..
In the present invention, the selection of interpolar spacer alternative is set as insulation, isolation space, electrolyte, dielectric, electricity
At least one of appearance, plasma, ionic liquid, ionized gas, solion and electronic conduction area.
In the present invention, so-called interpolar spacer, which is selectively chosen, is set as interior circuit, is also selectively chosen and sets
For external circuit.
In the present invention, so-called electro ultrafiltration is a kind of selectivity selection.
In the present invention, so-called " non-electronic charged particle " refers to the charged particle other than electronics, such as proton or ion.
In the present invention, after a certain component names plus the letter such as so-called " A ", " B " is merely to distinguish two or several
The identical component of title or substance.
In the present invention, necessary portion should be set in necessary place according to electricity field, the well-known technique of electrochemical field
Part, unit or system etc..
Beneficial effects of the present invention are as follows: electrochemical method for synthesizing disclosed in this invention will termination Conventional electrochemical synthesis
Method and electrochemistry formated device to the history of electrolyte demand, for efficiently, long-life, Low-cost electric chemical synthesizer open
Hair provides new approach.
Specific embodiment
Technical solution of the present invention is further illustrated combined with specific embodiments below.
Embodiment 1
The invention discloses a kind of electrochemical method for synthesizing, and electrochemistry region can specifically replaced with substance A and substance B and connects
It touches or makes substance A and substance B alternately to contact with electrochemistry region, or so that electrochemistry region and substance A is contacted with each other and make described
Electrochemistry region and the mutual makes discontinuous contact of substance B, or electrochemistry region and substance B is made to contact with each other and make the electrochemistry region
With the mutual makes discontinuous contact of substance A, so that the substance A is generated positive charged particle and electronics in the electrochemistry region, make the electricity
The electronics of chemical regions, which exports, to be imported.
As disposable embodiment, the embodiment of the present invention 1 and its disposable embodiment can be selected further
It is correspondingly arranged the electrochemistry region with electric conductor to property;It also further can selectively select to make the electrochemistry region
There is non-electronic conducting electrical relation with electric conductor, also further can selectively select to make the electrochemistry region through completely cutting off
Body, isolation space, electrolyte, dielectric, capacitor, plasma, ionic liquid, ionized gas, solion and electronic conduction
At least one of area has non-electronic conducting electrical relation with electric conductor.
Embodiment 2
The electrochemical method for synthesizing disclosed in this invention be also selectively chosen make electrochemistry region and substance A and
Substance B alternately contacts or makes substance A and substance B alternately to contact with electrochemistry region, makes the substance A in the electrochemistry region
Positive charged particle and electronics are generated, electronics is made to export importing between the electrochemistry region and region B.
As disposable embodiment, the embodiment of the present invention 2 and its disposable embodiment can be selected further
It is correspondingly arranged the electrochemistry region with the region B to property;It also further can selectively select to make the electrochemistry
Region and the region B have non-electronic conducting electrical relation, also further can selectively select to make the electrochemical school district
Domain through insulation, isolation space, electrolyte, dielectric, capacitor, plasma, ionic liquid, ionized gas, solion and
At least one of electronic conduction area has non-electronic conducting electrical relation with the region B.
Embodiment 3
The electrochemical method for synthesizing disclosed in this invention, which is also selectively chosen, makes electrochemistry region and substance A phase
The electrochemistry region and the mutual makes discontinuous contact of substance B are mutually contacted and made, generates the substance A just in the electrochemistry region
Charged particle and electronics make electronics export importing between the electrochemistry region and region B.
As disposable embodiment, the embodiment of the present invention 3 and its disposable embodiment can be selected further
It is correspondingly arranged the electrochemistry region with the region B to property;It also further can selectively select to make the electrochemistry
Region and the region B have non-electronic conducting electrical relation, also further can selectively select to make the electrochemical school district
Domain through insulation, isolation space, electrolyte, dielectric, capacitor, plasma, ionic liquid, ionized gas, solion and
At least one of electronic conduction area has non-electronic conducting electrical relation with the region B.
Embodiment 4
The electrochemical method for synthesizing disclosed in this invention, which is also selectively chosen, makes electrochemistry region and substance B phase
The electrochemistry region and the mutual makes discontinuous contact of substance A are mutually contacted and made, generates the substance A just in the electrochemistry region
Charged particle and electronics make electronics export importing between the electrochemistry region and region B.
As disposable embodiment, the embodiment of the present invention 4 and its disposable embodiment can be selected further
It is correspondingly arranged the electrochemistry region with the region B to property;It also further can selectively select to make the electrochemistry
Region and the region B have non-electronic conducting electrical relation, also further can selectively select to make the electrochemical school district
Domain through insulation, isolation space, electrolyte, dielectric, capacitor, plasma, ionic liquid, ionized gas, solion and
At least one of electronic conduction area has non-electronic conducting electrical relation with the region B.
Embodiment 5
The electrochemical method for synthesizing disclosed in this invention, which is also selectively chosen, makes electrochemistry region A and substance A
It alternately contacts or makes substance A and substance B alternately to contact with electrochemistry region A with substance B and make electrochemistry region B and the object
Matter B and the substance A alternately contact or make substance B and substance A alternately to contact with electrochemistry region B, make the substance A described
Electrochemistry region A generates positive charged particle and electronics, make the substance A the electrochemistry region B generate positive charged particle and
Electronics makes electronics export importing between the electrochemistry region A and the electrochemistry region B.
As disposable embodiment, the embodiment of the present invention 5 and its disposable embodiment can also be selected further
It selects to selecting property to be correspondingly arranged the electrochemistry region A with the electrochemistry region B;And it further can selectively select
Make the electrochemistry region A and electrochemistry region B that there is non-electronic conducting electrical relation;And it can further selectively
Selection make the electrochemistry region A through insulation, isolation space, electrolyte, dielectric, capacitor, plasma, ionic liquid,
At least one of ionized gas, solion and electronic conduction area have non-electronic conducting electricity with the electrochemistry region B
Relationship.
Embodiment 6
The electrochemical method for synthesizing disclosed in this invention, which is also selectively chosen, makes electrochemistry region A and substance A
It contacts with each other and makes the electrochemistry region A and the mutual makes discontinuous contact of substance B and make electrochemistry region B and substance A phase mutual connection
The electrochemistry region B and the mutual makes discontinuous contact of substance B are touched and made, the substance A is made to generate positive band in the electrochemistry region A
Charged particle and electronics make the substance A generate positive charged particle and electronics in the electrochemistry region B, make electronics in the electricity
It exports and imports between chemical regions A and the electrochemistry region B.
As disposable embodiment, the embodiment of the present invention 6 and its disposable embodiment can also be selected further
It selects to selecting property to be correspondingly arranged the electrochemistry region A with the electrochemistry region B;And it further can selectively select
Make the electrochemistry region A and electrochemistry region B that there is non-electronic conducting electrical relation;And it can further selectively
Selection make the electrochemistry region A through insulation, isolation space, electrolyte, dielectric, capacitor, plasma, ionic liquid,
At least one of ionized gas, solion and electronic conduction area have non-electronic conducting electricity with the electrochemistry region B
Relationship.
Embodiment 7
The electrochemical method for synthesizing disclosed in this invention, which is also selectively chosen, makes electrochemistry region A and substance B
It contacts with each other and makes the electrochemistry region A and the mutual makes discontinuous contact of substance A and make electrochemistry region B and substance B phase mutual connection
The electrochemistry region B and the mutual makes discontinuous contact of substance A are touched and made, the substance A is made to generate positive band in the electrochemistry region A
Charged particle and electronics make the substance A generate positive charged particle and electronics in the electrochemistry region B, make electronics in the electricity
It exports and imports between chemical regions A and the electrochemistry region B.
As disposable embodiment, the embodiment of the present invention 7 and its disposable embodiment can also be selected further
It selects to selecting property to be correspondingly arranged the electrochemistry region A with the electrochemistry region B;And it further can selectively select
Make the electrochemistry region A and electrochemistry region B that there is non-electronic conducting electrical relation;And it can further selectively
Selection make the electrochemistry region A through insulation, isolation space, electrolyte, dielectric, capacitor, plasma, ionic liquid,
At least one of ionized gas, solion and electronic conduction area have non-electronic conducting electricity with the electrochemistry region B
Relationship.
Embodiment 8
The electrochemical method for synthesizing disclosed in this invention, which is also selectively chosen, makes electrochemistry region A and substance B
It contacts with each other and makes the electrochemistry region A and the mutual makes discontinuous contact of substance A and make electrochemistry region B and substance A phase mutual connection
The electrochemistry region B and the mutual makes discontinuous contact of substance B are touched and made, the substance A is made to generate positive band in the electrochemistry region A
Charged particle and electronics make the substance A generate positive charged particle and electronics in the electrochemistry region B, make electronics in the electricity
It exports and imports between chemical regions A and the electrochemistry region B.
As disposable embodiment, the embodiment of the present invention 8 and its disposable embodiment can also be selected further
It selects to selecting property to be correspondingly arranged the electrochemistry region A with the electrochemistry region B;And it further can selectively select
Make the electrochemistry region A and electrochemistry region B that there is non-electronic conducting electrical relation;And it can further selectively
Selection make the electrochemistry region A through insulation, isolation space, electrolyte, dielectric, capacitor, plasma, ionic liquid,
At least one of ionized gas, solion and electronic conduction area have non-electronic conducting electricity with the electrochemistry region B
Relationship.
Embodiment 9
The electrochemical method for synthesizing disclosed in this invention be also selectively chosen make electrochemistry region and substance A and
The mixture of substance B contacts or contacts the mixture of substance A and substance B with electrochemistry region, makes the substance A in the electricity
Chemical regions generate positive charged particle and electronics, export the electronics in the electrochemistry region and import.
Embodiment 10
The electrochemical method for synthesizing disclosed in this invention be also selectively chosen make electrochemistry region and substance A and
The mixture makes discontinuous contact of substance B makes the mixture of substance A and substance B and electrochemistry region makes discontinuous contact, makes the substance A
Positive charged particle and electronics are generated in the electrochemistry region, the electronics in the electrochemistry region is exported and imports.
Embodiment 11
The electrochemical method for synthesizing disclosed in this invention be also selectively chosen make electrochemistry region and substance A and
The mixture of substance B contacts or contacts the mixture of substance A and substance B with electrochemistry region, makes the substance A in the electricity
Chemical regions generate positive charged particle and electronics, and electronics is made to export importing between the electrochemistry region and region B.
As disposable embodiment, the embodiment of the present invention 11 and its disposable embodiment can be selected further
It is correspondingly arranged the electrochemistry region and the region B to property;And it further can selectively select to make the electrochemical school district
Domain and the region B have non-electronic conducting electrical relation;It further can also selectively select to make the electrochemical school district
Domain through insulation, isolation space, electrolyte, dielectric, capacitor, plasma, ionic liquid, ionized gas, solion and
At least one of electronic conduction area has non-electronic conducting electrical relation with the region B.
Embodiment 12
The electrochemical method for synthesizing disclosed in this invention be also selectively chosen make electrochemistry region and substance A and
The mixture makes discontinuous contact of substance B makes the mixture of substance A and substance B and electrochemistry region makes discontinuous contact, makes the substance A
Positive charged particle and electronics are generated in the electrochemistry region, leads electronics between the electrochemistry region and region B
Enter.
As disposable embodiment, the embodiment of the present invention 12 and its disposable embodiment can be selected further
It is correspondingly arranged the electrochemistry region and the region B to property;And it further can selectively select to make the electrochemical school district
Domain and the region B have non-electronic conducting electrical relation;It further can also selectively select to make the electrochemical school district
Domain through insulation, isolation space, electrolyte, dielectric, capacitor, plasma, ionic liquid, ionized gas, solion and
At least one of electronic conduction area has non-electronic conducting electrical relation with the region B.
Embodiment 13
The electrochemical method for synthesizing disclosed in this invention, which is also selectively chosen, makes electrochemistry region A and substance A
With the contact of the mixture of substance B or contact the mixture of substance A and substance B with electrochemistry region A, make electrochemistry region B and
The mixture of substance A and substance B contacts or contacts the mixture of substance A and substance B with electrochemistry region B, makes the substance A
Positive charged particle and electronics are generated in the electrochemistry region A, the substance A is made to generate positive electrification in the electrochemistry region B
Particle and electronics make electronics export importing between the electrochemistry region A and the electrochemistry region B.
As disposable embodiment, the embodiment of the present invention 13 and its disposable embodiment can be selected further
It is correspondingly arranged the electrochemistry region A with the electrochemistry region B to property;It also further can selectively select to make described
The electrochemistry region A and electrochemistry region B has non-electronic conducting electrical relation;It also further can selectively select to make
The electrochemistry region A is through insulation, isolation space, electrolyte, dielectric, capacitor, plasma, ionic liquid, ion-gas
At least one of body, solion and electronic conduction area have non-electronic conducting electrical relation with the electrochemistry region B.
Embodiment 14
The electrochemical method for synthesizing disclosed in this invention, which is also selectively chosen, makes electrochemistry region A and substance A
With the mixture makes discontinuous contact of substance B or make the mixture of substance A and substance B and electrochemistry region A makes discontinuous contact, make electrochemistry
The mixture makes discontinuous contact of region B and substance A and substance B keeps the mixture of substance A and substance B and electrochemistry region B interrupted
Contact makes the substance A generate positive charged particle and electronics in the electrochemistry region A, makes the substance A in the electrochemistry
Region B generates positive charged particle and electronics, leads electronics between the electrochemistry region A and the electrochemistry region B
Enter.
As disposable embodiment, the embodiment of the present invention 14 and its disposable embodiment can be selected further
It is correspondingly arranged the electrochemistry region A with the electrochemistry region B to property;It also further can selectively select to make described
The electrochemistry region A and electrochemistry region B has non-electronic conducting electrical relation;It also further can selectively select to make
The electrochemistry region A is through insulation, isolation space, electrolyte, dielectric, capacitor, plasma, ionic liquid, ion-gas
At least one of body, solion and electronic conduction area have non-electronic conducting electrical relation with the electrochemistry region B.
In the specific implementation, electrochemical method for synthesizing disclosed in this invention exports in the implementation process imported in electronics,
Further can selectively it select using alternating source.
As disposable embodiment, the aforementioned all electrochemical method for synthesizing of the present invention in the specific implementation,
The export for making electronics further can be selectively selected to import as work normality.
Electrochemical method for synthesizing disclosed in this invention only containing electrochemistry region in the specific implementation, makes itself and conduction
Body is associated, and so that electronics is exported importing between the electrochemistry region and electric conductor is that work is normal
State.
In the specific implementation, all electrochemical method for synthesizing containing electric conductor further can be selected selectively
So that electric conductor is set as electrode, and further can selectively select that electric conductor is made to be set as three-diemsnional electrode.
Electrochemical method for synthesizing disclosed in this invention in the specific implementation, further can selectively select to make described
Substance A is set as hydrogen, and the substance B is set as carbon;And it further can selectively select the production for making the electrochemical method for synthesizing
Object is methane, ethane, propane or is octane.
Electrochemical method for synthesizing disclosed in this invention containing electrochemistry region in the specific implementation, can be selected further
Selecting property it is arranged the electrochemistry area rotation.
Electrochemical method for synthesizing disclosed in this invention containing electrochemistry region A and electrochemistry region B is being embodied
When, it further can selectively make the electrochemistry region A rotation setting, and make the electrochemistry region B rotation setting.
Electrochemical method for synthesizing disclosed in this invention containing the electrochemistry region A and the electrochemistry region B exists
When it is implemented, further can selectively select to make electronics between the electrochemistry region A and the electrochemistry region B
Export import be work normality.
Electrochemical method for synthesizing disclosed in this invention containing the electrochemistry region and the region B is being embodied
When, it further can selectively select the export for making electronics between the electrochemistry region and the region B to import as work
Make normality.
Electrochemical method for synthesizing disclosed in this invention containing the electrochemistry region and electric conductor in the specific implementation,
The export for making electronics between the electrochemistry region and electric conductor further can be selectively selected to import as work normality.
In the specific implementation, disclosed method, which is selectively chosen, serves as half electrochemistry formated device of manufacture (i.e.
Include the device region of an electrode in electrochemical method), it is also selectively chosen and serves as manufacture electrochemistry formated device.
In the specific implementation, the disclosed electrochemical method for synthesizing optionally makes the electrochemistry region and hands over
Power transformation kinetic potential and the corresponding state of alternating current are to continue working process.
In the specific implementation, the disclosed electrochemical method for synthesizing optionally makes the region B and alternation electricity
Kinetic potential and the corresponding state of alternating current are to continue working process.
In the specific implementation, the disclosed electrochemical method for synthesizing optionally make the electrochemistry region A with
Alternating electromotive force and the corresponding state of alternating current are to continue working process.
In the specific implementation, the disclosed electrochemical method for synthesizing optionally make the electrochemistry region B with
Alternating electromotive force and the corresponding state of alternating current are to continue working process.
In the specific implementation, the electrochemical method for synthesizing disclosed in this invention and alternating electromotive force and alternating current phase
Corresponding, i.e., electrochemistry region is corresponding with alternating electromotive force and alternating current.
In the present invention, relationship is connected for the electricity that non-electronic charged particle is formed, is selectively chosen through non-electronic
Relationship is connected in the direct electricity that charged particle is formed, and relationship, warp is connected in the electricity formed through non-electronic charged particle reciprocating vibration
One of electricity conducting relationship that capacitance relation is formed, secondly conjunction or thirdly conjunction.
The present invention in the specific implementation, further can selectively select to select the electrochemistry region optionally
It selects and is set as three-diemsnional electrode.
The present invention in the specific implementation, further can selectively select to make the electrochemistry region A optionally
Selection is set as three-diemsnional electrode.
The present invention in the specific implementation, further can selectively select to make the electrochemistry region B optionally
Selection is set as three-diemsnional electrode.
In the specific implementation, further can selectively select is selectively chosen the region B sets the present invention
For three-diemsnional electrode.
Electrochemical method for synthesizing disclosed in this invention only containing electrochemistry region in the specific implementation, can be selected further
Make to selecting property the electrochemistry region and electric conductor includes the area alternating current Jie electricity, and makes described in the electrochemistry region process
The area alternating current Jie electricity is associated with electric conductor.
Electrochemical method for synthesizing disclosed in this invention containing electrochemistry region and region B in the specific implementation, can be into
One step selectively makes the electrochemistry region and the region B includes the area alternating current Jie electricity, and makes the electrochemical school district
Domain is associated with the region B by the area the alternating current Jie electricity.
Electrochemical method for synthesizing disclosed in this invention containing electrochemistry region A and electrochemistry region B is being embodied
When, it further can selectively make the electrochemistry region A and the electrochemistry region B includes the area alternating current Jie electricity, and
Keep the electrochemistry region A associated with the electrochemistry region B by the area the alternating current Jie electricity.
In the present invention, the electrochemical method for synthesizing in disclosed only electrochemistry region is in the specific implementation, alternative
Ground selects to make two electrode cooperating completionizations using electric conductor as another electrode using electrochemistry region as an electrode
Learning can electric energy conversion;Also be selectively chosen using electrochemistry region as an electrode, using another electrochemistry region as
Another electrode, two electrode cooperatings complete the conversion of chemical energy electric energy.
It is clear that the invention is not restricted to above embodiments, according to techniques known and technology disclosed in this invention
Scheme, can derive or associate many variant schemes out, and all these variant schemes also are regarded as being protection model of the invention
It encloses.
Claims (16)
1. a kind of electrochemical method for synthesizing, it is characterised in that: electrochemistry region is made alternately to contact or make object with substance A and substance B
Matter A and substance B are alternately contacted with electrochemistry region, or so that electrochemistry region and substance A is contacted with each other and made the electrochemical school district
Domain and the mutual makes discontinuous contact of substance B, or electrochemistry region and substance B is made to contact with each other and make the electrochemistry region and substance A
Mutual makes discontinuous contact makes the substance A generate positive charged particle and electronics in the electrochemistry region, makes the electrochemistry region
Electronics export import.
2. a kind of electrochemical method for synthesizing, it is characterised in that: electrochemistry region is made alternately to contact or make object with substance A and substance B
Matter A and substance B are alternately contacted with electrochemistry region, or so that electrochemistry region and substance A is contacted with each other and made the electrochemical school district
Domain and the mutual makes discontinuous contact of substance B, or electrochemistry region and substance B is made to contact with each other and make the electrochemistry region and substance A
Mutual makes discontinuous contact makes the substance A generate positive charged particle and electronics in the electrochemistry region, makes electronics in the electrification
It exports and imports between school district domain and region B;
It is connect or, electrochemistry region is made alternately to contact or make substance A and substance B to replace with electrochemistry region with substance A and substance B
Touching, or so that electrochemistry region and substance A is contacted with each other and is made the electrochemistry region and the mutual makes discontinuous contact of substance B, or make electricity
Chemical regions and substance B contact with each other and make the electrochemistry region and the mutual makes discontinuous contact of substance A, to make the substance A in institute
It states electrochemistry region and generates positive charged particle and electronics, electronics is made to export importing, institute between the electrochemistry region and region B
Electrochemistry region is stated to be correspondingly arranged with the region B;
It is connect or, electrochemistry region is made alternately to contact or make substance A and substance B to replace with electrochemistry region with substance A and substance B
Touching, or so that electrochemistry region and substance A is contacted with each other and is made the electrochemistry region and the mutual makes discontinuous contact of substance B, or make electricity
Chemical regions and substance B contact with each other and make the electrochemistry region and the mutual makes discontinuous contact of substance A, to make the substance A in institute
It states electrochemistry region and generates positive charged particle and electronics, electronics is made to export importing between the electrochemistry region and region B;Institute
Stating electrochemistry region and the region B has non-electronic conducting electrical relation, or, the electrochemistry region is through insulation, isolation
In space, electrolyte, dielectric, capacitor, plasma, ionic liquid, ionized gas, solion and electronic conduction area extremely
A kind of few and region B has non-electronic conducting electrical relation.
3. a kind of electrochemical method for synthesizing, it is characterised in that: electrochemistry region A is made alternately to contact or make object with substance A and substance B
Matter A and substance B, which alternately contact with electrochemistry region A and replace electrochemistry region B with the substance B and the substance A, to be connect
It touches or makes substance B and substance A alternately to contact with electrochemistry region B, or electrochemistry region A and substance A is made to contact with each other and make institute
It states electrochemistry region A and the mutual makes discontinuous contact of substance B and electrochemistry region B and substance A is made to contact with each other and make the electrification
School district domain B and the mutual makes discontinuous contact of substance B, or electrochemistry region A and substance B is made to contact with each other and make the electrochemistry region A
With the mutual makes discontinuous contact of substance A and make electrochemistry region B and substance B contacts with each other and makes the electrochemistry region B and substance A
Mutual makes discontinuous contact, or so that electrochemistry region A is contacted with each other with substance B and keep the electrochemistry region A and substance A mutually interrupted
It contacts and makes electrochemistry region B and substance A to contact with each other and make the electrochemistry region B and the mutual makes discontinuous contact of substance B, make
The substance A generates positive charged particle and electronics in the electrochemistry region A, produces the substance A in the electrochemistry region B
Raw positive charged particle and electronics, make electronics export importing between the electrochemistry region A and the electrochemistry region B;
It is connect or, electrochemistry region A is made alternately to contact or make substance A and substance B to replace with electrochemistry region A with substance A and substance B
It touches and electrochemistry region B is made alternately to contact or make substance B and substance A and electrochemistry region with the substance B and the substance A
B is alternately contacted, or so that electrochemistry region A is contacted with each other with substance A and connect the electrochemistry region A mutually discontinuously with substance B
It touches and makes electrochemistry region B and substance A to contact with each other and make the electrochemistry region B and the mutual makes discontinuous contact of substance B, or make
Electrochemistry region A and substance B contact with each other and make the electrochemistry region A and the mutual makes discontinuous contact of substance A and make electrochemistry
Region B and substance B contact with each other and make the electrochemistry region B and the mutual makes discontinuous contact of substance A, or make electrochemistry region A and
Substance B contacts with each other and makes the electrochemistry region A and the mutual makes discontinuous contact of substance A and make electrochemistry region B and substance A phase
The electrochemistry region B and the mutual makes discontinuous contact of substance B are mutually contacted and made, generates the substance A in the electrochemistry region A
Positive charged particle and electronics, make the substance A generate positive charged particle and electronics in the electrochemistry region B, make electronics in institute
It states to export between electrochemistry region A and the electrochemistry region B and import, the electrochemistry region A and B pairs of the electrochemistry region
It should be arranged;
It is connect or, electrochemistry region A is made alternately to contact or make substance A and substance B to replace with electrochemistry region A with substance A and substance B
It touches and electrochemistry region B is made alternately to contact or make substance B and substance A and electrochemistry region with the substance B and the substance A
B is alternately contacted, or so that electrochemistry region A is contacted with each other with substance A and connect the electrochemistry region A mutually discontinuously with substance B
It touches and makes electrochemistry region B and substance A to contact with each other and make the electrochemistry region B and the mutual makes discontinuous contact of substance B, or make
Electrochemistry region A and substance B contact with each other and make the electrochemistry region A and the mutual makes discontinuous contact of substance A and make electrochemistry
Region B and substance B contact with each other and make the electrochemistry region B and the mutual makes discontinuous contact of substance A, or make electrochemistry region A and
Substance B contacts with each other and makes the electrochemistry region A and the mutual makes discontinuous contact of substance A and make electrochemistry region B and substance A phase
The electrochemistry region B and the mutual makes discontinuous contact of substance B are mutually contacted and made, generates the substance A in the electrochemistry region A
Positive charged particle and electronics, make the substance A generate positive charged particle and electronics in the electrochemistry region B, make electronics in institute
It states to export between electrochemistry region A and the electrochemistry region B and import;The electrochemistry region A and electrochemistry region B has
Have non-electronic conducting electrical relation, or, the electrochemistry region A through insulation, isolation space, electrolyte, dielectric, capacitor,
At least one of plasma, ionic liquid, ionized gas, solion and electronic conduction area and the electrochemistry region B
With non-electronic conducting electrical relation.
4. a kind of electrochemical method for synthesizing, it is characterised in that: make electrochemistry region contacted with the mixture of substance A and substance B or
It contacts the mixture of substance A and substance B with electrochemistry region, the substance A is made to generate positive electrification in the electrochemistry region
Particle and electronics export the electronics in the electrochemistry region and import;
Or, making the mixture makes discontinuous contact of electrochemistry region and substance A and substance B or making the mixture of substance A and substance B and electricity
Chemical regions makes discontinuous contact makes the substance A generate positive charged particle and electronics in the electrochemistry region, makes the electrochemistry
The electronics in region, which exports, to be imported.
5. a kind of electrochemical method for synthesizing, it is characterised in that: make electrochemistry region contacted with the mixture of substance A and substance B or
It contacts the mixture of substance A and substance B with electrochemistry region, the substance A is made to generate positive electrification in the electrochemistry region
Particle and electronics make electronics export importing between the electrochemistry region and region B;
Or, making the mixture makes discontinuous contact of electrochemistry region and substance A and substance B or making the mixture of substance A and substance B and electricity
Chemical regions makes discontinuous contact makes the substance A generate positive charged particle and electronics in the electrochemistry region, makes electronics described
It exports and imports between electrochemistry region and region B;
Or, making electrochemistry region that the mixture and electrochemistry of substance A and substance B are contacted or made with the mixture of substance A and substance B
Region contact, makes the substance A generate positive charged particle and electronics in the electrochemistry region, makes electronics in the electrochemical school district
It exports and imports between domain and region B, the electrochemistry region and the region B are correspondingly arranged;
Or, making the mixture makes discontinuous contact of electrochemistry region and substance A and substance B or making the mixture of substance A and substance B and electricity
Chemical regions makes discontinuous contact makes the substance A generate positive charged particle and electronics in the electrochemistry region, makes electronics described
It exports and imports between electrochemistry region and region B, the electrochemistry region and the region B are correspondingly arranged;
Or, making electrochemistry region that the mixture and electrochemistry of substance A and substance B are contacted or made with the mixture of substance A and substance B
Region contact, makes the substance A generate positive charged particle and electronics in the electrochemistry region, makes electronics in the electrochemical school district
It exports and imports between domain and region B;The electrochemistry region and the region B have non-electronic conducting electrical relation, or, described
Electrochemistry region through insulation, isolation space, electrolyte, dielectric, capacitor, plasma, ionic liquid, ionized gas, from
At least one of sub- solution and electronic conduction area have non-electronic conducting electrical relation with the region B;
Or, making the mixture makes discontinuous contact of electrochemistry region and substance A and substance B or making the mixture of substance A and substance B and electricity
Chemical regions makes discontinuous contact makes the substance A generate positive charged particle and electronics in the electrochemistry region, makes electronics described
It exports and imports between electrochemistry region and region B;The electrochemistry region and the region B are closed with non-electronic conducting electricity
System, or, the electrochemistry region through insulation, isolation space, electrolyte, dielectric, capacitor, plasma, ionic liquid, from
At least one of sub- gas, solion and electronic conduction area have non-electronic conducting electrical relation with the region B.
6. a kind of electrochemical method for synthesizing, it is characterised in that: make electrochemistry region A contacted with the mixture of substance A and substance B or
It contacts the mixture of substance A and substance B with electrochemistry region A, meets electrochemistry region B and the mixture of substance A and substance B
It touches or makes the mixture of substance A and substance B to contact with electrochemistry region B, generate the substance A in the electrochemistry region A
Positive charged particle and electronics, make the substance A generate positive charged particle and electronics in the electrochemistry region B, make electronics in institute
It states to export between electrochemistry region A and the electrochemistry region B and import;
Or, making electrochemistry region A that the mixture of substance A and substance B and electrification are contacted or made with the mixture of substance A and substance B
School district domain A contact, make electrochemistry region B contact or make with the mixture of substance A and substance B the mixture of substance A and substance B and
Electrochemistry region B contact, makes the substance A generate positive charged particle and electronics in the electrochemistry region A, makes the substance A
Positive charged particle and electronics are generated in the electrochemistry region B, makes electronics in the electrochemistry region A and the electrochemistry region
It exports and imports between B, the electrochemistry region A is correspondingly arranged with the electrochemistry region B;
Or, making electrochemistry region A that the mixture of substance A and substance B and electrification are contacted or made with the mixture of substance A and substance B
School district domain A contact, make electrochemistry region B contact or make with the mixture of substance A and substance B the mixture of substance A and substance B and
Electrochemistry region B contact, makes the substance A generate positive charged particle and electronics in the electrochemistry region A, makes the substance A
Positive charged particle and electronics are generated in the electrochemistry region B, makes electronics in the electrochemistry region A and the electrochemistry region
It exports and imports between B;The electrochemistry region A and electrochemistry region B has non-electronic conducting electrical relation, or, described
Electrochemistry region A through insulation, isolation space, electrolyte, dielectric, capacitor, plasma, ionic liquid, ionized gas, from
At least one of sub- solution and electronic conduction area have non-electronic conducting electrical relation with the electrochemistry region B;
Or, make the mixture makes discontinuous contact of electrochemistry region A and substance A and substance B or make the mixture of substance A and substance B with
Electrochemistry region A makes discontinuous contact makes the mixture makes discontinuous contact of electrochemistry region B and substance A and substance B or makes substance A and object
The mixture of matter B and electrochemistry region B makes discontinuous contact, make the substance A the electrochemistry region A generate positive charged particle and
Electronics makes the substance A generate positive charged particle and electronics in the electrochemistry region B, makes electronics in the electrochemistry region A
It exports and imports between the electrochemistry region B;
Or, make the mixture makes discontinuous contact of electrochemistry region A and substance A and substance B or make the mixture of substance A and substance B with
Electrochemistry region A makes discontinuous contact makes the mixture makes discontinuous contact of electrochemistry region B and substance A and substance B or makes substance A and object
The mixture of matter B and electrochemistry region B makes discontinuous contact, make the substance A the electrochemistry region A generate positive charged particle and
Electronics makes the substance A generate positive charged particle and electronics in the electrochemistry region B, makes electronics in the electrochemistry region A
It exports and imports between the electrochemistry region B, the electrochemistry region A is correspondingly arranged with the electrochemistry region B;
Or, make the mixture makes discontinuous contact of electrochemistry region A and substance A and substance B or make the mixture of substance A and substance B with
Electrochemistry region A makes discontinuous contact makes the mixture makes discontinuous contact of electrochemistry region B and substance A and substance B or makes substance A and object
The mixture and electrochemistry region B makes discontinuous contact of matter B;Make the substance A the electrochemistry region A generate positive charged particle and
Electronics makes the substance A generate positive charged particle and electronics in the electrochemistry region B, makes electronics in the electrochemistry region A
It exports and imports between the electrochemistry region B;The electrochemistry region A and electrochemistry region B has non-electronic conducting
Electrical relation, or, the electrochemistry region A is through insulation, isolation space, electrolyte, dielectric, capacitor, plasma, ion
At least one of liquid, ionized gas, solion and electronic conduction area have non-electronic conducting with the electrochemistry region B
Electrical relation.
7. the electrochemical method for synthesizing as described in any one of claims 1 to 6, it is characterised in that: in the mistake that electronics export imports
Cheng Zhong uses alternating source.
8. the electrochemical method for synthesizing as described in any one of claims 1 to 6, it is characterised in that: it is work that the export of electronics, which imports,
Make normality.
9. electrochemical method for synthesizing as claimed in claim 7, it is characterised in that: it is work normality that the export of electronics, which imports,.
10. the electrochemical method for synthesizing as described in any one of claim 1 to 6 and 9, it is characterised in that: the substance A is set as hydrogen
Gas, the substance B are set as carbon;Or the substance A is set as hydrogen, the substance B is set as carbon, the production of the electrochemical method for synthesizing
Object is methane, ethane, propane or is octane.
11. electrochemical method for synthesizing as claimed in claim 7, it is characterised in that: the substance A is set as hydrogen, and the substance B is set
For carbon;Or the substance A is set as hydrogen, the substance B is set as carbon, the product of the electrochemical method for synthesizing be methane, ethane,
Propane is octane.
12. electrochemical method for synthesizing as claimed in claim 8, it is characterised in that: the substance A is set as hydrogen, and the substance B is set
For carbon;Or the substance A is set as hydrogen, the substance B is set as carbon, the product of the electrochemical method for synthesizing be methane, ethane,
Propane is octane.
13. the electrochemical method for synthesizing as described in any one of claim 1 to 6 and 9 and 11 and 12, it is characterised in that: the electricity
Chemical regions rotation setting;Or, in the method including the electrochemistry region A and electrochemistry region B, the electrochemistry
Region A rotation setting, the electrochemistry region B rotation setting.
14. electrochemical method for synthesizing as claimed in claim 7, it is characterised in that: the electrochemistry area rotation setting;Or,
In method including the electrochemistry region A and the electrochemistry region B, the electrochemistry region A rotation setting, the electrification
School district domain B rotation setting.
15. electrochemical method for synthesizing as claimed in claim 8, it is characterised in that: the electrochemistry area rotation setting;Or,
In method including the electrochemistry region A and the electrochemistry region B, the electrochemistry region A rotation setting, the electrification
School district domain B rotation setting.
16. electrochemical method for synthesizing as claimed in claim 10, it is characterised in that: the electrochemistry area rotation setting;Or,
In method including the electrochemistry region A and the electrochemistry region B, the electrochemistry region A rotation setting, the electrification
School district domain B rotation setting.
Applications Claiming Priority (16)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN2018109771224 | 2018-08-26 | ||
CN201810977122 | 2018-08-26 | ||
CN201810983639 | 2018-08-27 | ||
CN2018109819647 | 2018-08-27 | ||
CN201810983010 | 2018-08-27 | ||
CN2018109836394 | 2018-08-27 | ||
CN201810983010X | 2018-08-27 | ||
CN201810981964 | 2018-08-27 | ||
CN201810981960 | 2018-08-27 | ||
CN2018109819609 | 2018-08-27 | ||
CN2018110530892 | 2018-09-10 | ||
CN201811051522 | 2018-09-10 | ||
CN2018110515229 | 2018-09-10 | ||
CN201811053089 | 2018-09-10 | ||
CN201910036854 | 2019-01-15 | ||
CN2019100368548 | 2019-01-15 |
Publications (1)
Publication Number | Publication Date |
---|---|
CN109536983A true CN109536983A (en) | 2019-03-29 |
Family
ID=65838940
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201910107799.7A Pending CN109536983A (en) | 2018-08-26 | 2019-02-02 | A kind of electrochemical method for synthesizing |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN109536983A (en) |
Citations (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2007273190A (en) * | 2006-03-30 | 2007-10-18 | Shinshu Univ | Method of manufacturing composite material, filter and diffusion layer for fuel cell |
CN105637123A (en) * | 2013-07-31 | 2016-06-01 | 奥克海德莱克斯控股有限公司 | Electro-synthetic or electro-energy cell with gas diffusion electrode(s) |
-
2019
- 2019-02-02 CN CN201910107799.7A patent/CN109536983A/en active Pending
Patent Citations (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2007273190A (en) * | 2006-03-30 | 2007-10-18 | Shinshu Univ | Method of manufacturing composite material, filter and diffusion layer for fuel cell |
CN105637123A (en) * | 2013-07-31 | 2016-06-01 | 奥克海德莱克斯控股有限公司 | Electro-synthetic or electro-energy cell with gas diffusion electrode(s) |
Non-Patent Citations (1)
Title |
---|
屠振密: "《现代合金电沉积理论与技术》", 31 May 2016, 北京:国防工业出版社 * |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
US9096939B2 (en) | Electrolysis transistor | |
CN103732799A (en) | Membrane/electrode assembly for an electrolysis device | |
US3138487A (en) | Fuel cell | |
CN108807006A (en) | A kind of preparation method of carbon-based flexible electrode | |
US20180163313A1 (en) | Combined magnetohydrodynamic and electrochemical method and corresponding apparatus for producing hydrogen | |
Geng et al. | Revealing the electrocatalytic mechanism of layered crystalline CoMoO4 for water splitting: a theoretical study from facet selecting to active site engineering | |
CN109536983A (en) | A kind of electrochemical method for synthesizing | |
Garamoun et al. | Thin‐Film Silicon for Flexible Metal–Air Batteries | |
CN109536989A (en) | A kind of electrochemistry formated device | |
CN107665981B (en) | It is a kind of using the ionic liquid containing chlorine as the battery of positive active material and its assemble method | |
CN109797401A (en) | A kind of electrolytic method | |
CN211479869U (en) | Capacitor | |
CN109735868A (en) | A kind of electrolysis unit | |
CN211479874U (en) | Capacitor | |
CN211479867U (en) | Capacitor | |
KR840004616A (en) | Improved dual layer energy storage | |
CN107666016B (en) | It is a kind of using the ionic liquid containing iodine as the battery of positive active material and its assemble method | |
CN109786792A (en) | A kind of chemical energy electric energy conversion method | |
CN109786802A (en) | A kind of electrochemical reaction implementation method | |
CN109802203A (en) | A kind of electrochemical appliance | |
Lehman-Chong et al. | Improving the Selectivity of High Temperature Electrochemical Ammonia Synthesis Using Solid Oxide Proton Conducting Electrolytes | |
RU2277274C1 (en) | Method for converting chemical material energy into ac current energy | |
Lu et al. | A novel PdC monolayer with fully dispersed Pd atoms and a rigid carbon backbone: an intrinsic versatile electrocatalyst for overall water splitting and the corresponding reverse reaction | |
US20240014409A1 (en) | Electrode For A Redox Flow Battery, Redox Flow Battery And Hydrogen Generation With A Redox Flow Battery | |
CN109802205A (en) | A kind of electrochemical appliance |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
PB01 | Publication | ||
PB01 | Publication | ||
SE01 | Entry into force of request for substantive examination | ||
SE01 | Entry into force of request for substantive examination | ||
RJ01 | Rejection of invention patent application after publication |
Application publication date: 20190329 |