CN202855807U

CN202855807U - Environment energy transforming device

Info

Publication number: CN202855807U
Application number: CN 201220353969
Authority: CN
Inventors: 台国安; 许子寒
Original assignee: Nanjing University of Aeronautics and Astronautics
Current assignee: Nanjing University of Aeronautics and Astronautics
Priority date: 2012-07-20
Filing date: 2012-07-20
Publication date: 2013-04-03
Anticipated expiration: 2022-07-20

Abstract

The utility model discloses an environment energy transforming device, comprising energy transforming units which comprise anodes, cathodes, and middle bodies. The middle body is made of a semiconductor and is disposed between the anode and the cathode. Two sides of the middle body are respectively connected and contacted with the anode and the cathode. The anode and the cathode have asymmetry. The asymmetry of the anode and the cathode means that materials of the anode and the cathode have different work functions or different surface modification of different geometric structure. The energy transforming units can be connected in parallel or in series to form an integrated environment energy transforming device. The environment energy transforming device uses surface effect of the semiconductor, and continuously transforms environment thermal energy in environment such as gas, liquid, gel or plasma contacted with the device, and especially in solution. The environment energy transforming device can be used for generating power and refrigeration, provides energy and refrigeration for various buildings, transportation facilities or electronic equipment, and also can be used in detection devices for concentration, temperature, and flow velocity.

Description

The environmental energy reforming unit

Technical field

The utility model relates to the environmental energy converting apparatus of new principle.

Background technology

Conversion of Energy and memory technology comprise that solar energy, heat, vibration, chemistry and wind energy etc. are converted into electric energy.In these numerous Conversion of Energy technology, lithium battery, ultracapacitor, solar cell, fuel cell and zinc-oxide nano generator have been subject to paying close attention to the most widely.Yet lithium battery, ultracapacitor will use charging to use, and for energization density, need large volume and weight.Solar cell need to have the situation of illumination to use, fuel cell is wanted consume fuel and environment is caused very large harm, the zinc-oxide nano generator has produced discontinuous electricity output, need to store with electric capacity the electricity of its generation, and consumes mechanical energy.Yet, another kind of form of energy is arranged, the energy of molecule, atom, ion, particle warm-up movement, such as the heat movement speed of gas molecule up to 1000 m/s, in the aqueous solution under the room temperature energy of ion warm-up movement up to 300 m/s, because this motion is rambling, the Conversion of Energy that up to the present still has no this warm-up movement is the report of electric energy.

As everyone knows, the solid surface and interface has many abundant physics, chemistry, biology and engineering properties.No matter be body material or nano level film, the surface that is exposed to environment is all arranged, can produce the environmental induction skin effect, produce novel physics and dynamo-electric photo-thermal effect.Especially, when the thickness of semiconductive thin film little during to nano thickness, the composition of surface and interface accounts for the overall ratio of film and enlarges markedly, character with surface and interface is preponderated, catalytic performance such as biological effect significantly strengthens, in medicine was synthetic, enzymatic activity can significantly strengthen by adding nanoparticle.On the other hand, we find that when the device that uses semiconductor fabrication was positioned in the electrolyte solution, this system can spontaneous generation electricity.When the thickness reduction of semiconductive thin film to nano thickness, on the dimension less than 100 nanometers, after the semiconductive thin film that vacuum or solwution method are processed is prepared on the substrates such as glass, pottery, plastics, rubber, the film two ends are utilized the asymmetry electrode regulation and control, after being positioned over ready-made device in the electrolyte salt solution, device can the lasting electricity output of spontaneous generation.This discovery is the semiconductor self-charging device that has utilized the generating of environment heat, but not chemical reaction class device, is the research direction of a prediction of green energy resource science and technology field developing.

Summary of the invention

The purpose of this utility model is to provide a kind of semiconductor device that environment thermal energy is converted into electric energy.

Technical scheme provided by the utility model is:

The environmental energy reforming unit comprises the Conversion of Energy unit.The Conversion of Energy unit comprises: positive pole, negative pole, intermediate and intermediary's medium.Intermediate is made by semiconductor, is clipped between positive pole and the negative pole, and both sides are connected with anodal, negative pole respectively.Anodal and negative pole has asymmetry.

The semi-conducting material of intermediate can be doping type Graphene or doping type diamond thin or conventional inorganic semiconductor or organic semiconductor.Conventional inorganic semiconductor comprises chalcogen compound, nitride, phosphide, the arsenide of IIIA-VA family, II-VI family, IVA-VIA family and transition metal or rare earth metal, for example, silicon, germanium, GaAs, gallium nitride, zinc oxide, zinc sulphide, titanium oxide, cupric oxide or copper sulfide.Organic semiconductor, for example: P3HT(gathers 3 basic thiophene) and PEDOT (3,4-ethylene dioxythiophene).Intermediate can be body material or film.The body material is the material with three-dimensional macro structure.Film is a kind of two-dimensional material, and thickness direction is micron and nanometer scale.The intermediate of film-form also can be fixed on the substrate liner plate by the mode of stickup, plated film, and the substrate liner plate is body material or the film of being made by insulating material.

Anodal and negative pole has asymmetry and comprises three kinds of situations:

The first situation is anodal and negative pole is made by the material with different work functions.Anodal work function WP, the work function WN of negative pole, the work function WX of intermediate meet the following conditions: WP＞WX 〉=WN.Wherein, the work function of positive pole, negative pole and intermediate refers to the work function of positive pole, negative pole and intermediate material.Wherein, can be palladium, gold, carbon, platinum, selenium, cobalt, beryllium, silicon, graphite etc. or inorganic/organic conductive solid as the material of the high work function of positive pole, perhaps contain two kinds of previous materials, the electric conducting material of multiple mixture.Material as the low work function of negative pole can be silver, aluminium, caesium, copper, lithium, lead, tin, chromium, molybdenum, tungsten, nickel, titanium, cadmium, calcium, iron, magnesium, mercury, niobium, potassium, sodium, uranium, zinc etc. or inorganic/organic conductive solid, perhaps contains two kinds of previous materials, the electric conducting material of multiple mixture.

Second case is anodal and negative pole adopts the surface molecular with different chain length or different structure that it is carried out finishing.Wherein, decorating molecule is the PMMA(polymethyl methacrylate), the PVA(polyvinyl acetate) or sulfydryl thio-alcohol organic molecule etc.The finishing of surface molecular refers to group of molecules is loaded on electrode surface, can by immerse the solution self assembly, drip be coated with, spin coating or Vacuum Coating method realize.But the surface molecular of different chain length or different structure refers to have the structures such as identical alkane, alcohol, ether, aromatic rings the molecule that the chain structure of different numbers consists of, refer to perhaps that the structures such as different alkane, alcohol, ether, aromatic rings consist of but chain length identical be the identical molecule of carbon atom number on the main chain.Comprise: only have positive pole to do finishing, perhaps only have negative pole to do the situation of finishing.

The third situation is that positive pole has different geometries with negative pole.Anodal and negative pole at the intermediate two ends, all around or the labyrinth structure such as interdigital, finger, it is satisfied condition: just having and the contact area of the intermediate contact area less than negative pole and intermediate.

Above-mentioned three kinds of situations that anodal and negative pole has asymmetry can be combined with.Such as: anodal and negative pole is made by the material with different work functions, simultaneously, adopts the surface molecular with different chain length or different structure that it is carried out finishing at anodal and negative pole; Perhaps, anodal and negative pole is made by the material with different work functions, and simultaneously, anodal have different geometries with negative pole; Perhaps, anodal and negative pole is made by the material with different work functions, simultaneously, adopts the surface molecular with different chain length or different structure that it is carried out finishing at anodal and negative pole, and anodal have different geometries with negative pole; Perhaps, adopt the surface molecular with different chain length or different structure that it is carried out finishing at anodal and negative pole, and anodal have different geometries with negative pole.Distance between positive pole and the negative pole is 0.001 centimetre to 10 centimetres.Intermediate between positive pole and the negative pole forms a contact-making surface.

The intermediate of Conversion of Energy unit need to be placed in certain intermediary medium and could use, and described intermediary can be gas, liquid, gel or plasma.Described gas can be atomic gas or molecular gas, also can be clean gas or mist.So-called clean gas refers to that gas only comprises a certain element or only comprises a certain compound, such as pure nitrogen, and pure helium, pure carbon dioxide.Mist is such as air.Described liquid can be liquid juice or mixing material.Liquid juice can be liquefied compound or liquid metal.Mixing material can be electrolyte solution and non-electrolytic solution.Electrolyte solution can be organic electrolyte solution or inorganic electrolyte solution.Inorganic electrolyte solution is the aqueous solution of villaumite, bromine salt, salt compounded of iodine, villiaumite, nitrate, sulfate, citrate, phosphate of alkali metal class, transition metal-type, terres rares or other metal eka-aluminums, indium, gallium, tin, thallium, lead, bismuth etc. etc.Described gel can be Signa Gel.

Intermediary's medium can not contact with anodal negative pole, thereby needs spacer assembly that intermediary's medium and anodal negative pole is isolated.Spacer assembly can be divided into two kinds of situations: a kind of is that anodal negative pole is passed through wrapped with insulation, whole Conversion of Energy unit is placed in intermediary's medium, because anodal negative pole is sealed, can't contact with intermediary's medium, and the intermediate between positive pole and the negative pole can contact by contact-making surface and intermediary's medium of intermediate.This situation is when the utility model is applied to transducer or temperature, ion concentration, flow monitor, the scheme that can adopt.Because when detected temperatures, ion concentration, flow velocity, intermediate directly need to be put into detected gas or liquid, and contact with tested gas and liquid.Another kind of situation is to adopt annular seal space, makes annular seal space by insulating material in the Conversion of Energy unit, and annular seal space is with intermediary's medium and intermediate sealing, and intermediary's medium only in annular seal space, can't contact with negative pole with anodal; And intermediate contacts by intermediate contact-making surface and intermediary between positive pole and the negative pole in the annular seal space.

Each Conversion of Energy unit can comprise a plurality of intermediates, and a plurality of intermediates share positive pole and negative pole, thereby forms relation in parallel between positive pole and negative pole.This situation is equal to parallel connection between a plurality of Conversion of Energies unit in effect.

The environmental energy reforming unit can comprise a plurality of Conversion of Energies unit.Adopt mode in parallel or series connection to interconnect between each Conversion of Energy unit.So-called parallel connection refers to that the positive pole between the different-energy conversion unit connects with wire with being connected.So-called series connection refers to, the positive pole of Conversion of Energy unit with are connected the negative pole of Conversion of Energy unit and connect with wire.Series and parallel connections between the Conversion of Energy unit can be combined with.That is, form parallel module after the unit parallel connection of a plurality of Conversion of Energies, a plurality of parallel modules are connected again, and are in parallel between a plurality of serial module structures that perhaps form after a plurality of parallel module series connection.

As previously mentioned, the Conversion of Energy unit can comprise annular seal space and intermediary's medium.Annular seal space is made by insulating material.Intermediary's medium and intermediate are sealed in the annular seal space.The scheme that this situation is that the utility model is applied to generate electricity, can adopt when power supply or refrigerating plant.Because when the utility model is applied to generating, power supply or refrigeration, for raising the efficiency, preferably with the material of a large amount of dissociated ions, this class material also has electric conductivity because of the existence of a large amount of ions to intermediary's medium.So-called dissociated ion refers to the positively charged that can move freely or atom or the molecule of negative electricity.For example, electrolyte solution, Signa Gel, liquid metal or plasma all are to belong to the material that includes a large amount of dissociated ions.Consider that from the angle of practicality and economy electrolyte solution and Signa Gel are the preferred versions of the intermediary medium of the utility model during as generating, power supply or refrigerating plant.Because plasma needs high cost, and conventional liquid metal only has mercury.

The environmental energy reforming unit can comprise positive pole and negative pole.Under the situation of only having single Conversion of Energy unit, the positive pole of Conversion of Energy unit and negative pole can directly be positive pole and the negative poles of environmental energy reforming unit.Under the situation that comprises a plurality of Conversion of Energies unit, positive pole and negative pole that a plurality of Conversion of Energies unit total positive pole and negative pole after series connection and parallel connection can be used as the environmental energy reforming unit.The positive pole of environmental energy reforming unit and negative pole are connected with respectively contact conductor.After the centre added load, the environmental energy reforming unit had continual electric current output after the positive pole of environmental energy reforming unit and negative pole were drawn by contact conductor.

Principle of the present utility model is that the semiconductor by intermediate is in contact with one another by the intermediate contact-making surface between positive pole and the negative pole and intermediary's medium, and the skin effect that occurs, under the guiding of asymmetry electrode, and continual output current.Thereby the utility model is intermediate, intermediary's medium and the coefficient result of asymmetry electrode, and different intermediate materials, different intermediaries medium and different electrode asymmetry have different effects.Concrete situation is referring to the test data of embodiment.

The utility model is different from chemical cell, does not relate to chemical reaction, does not need charging to consume electric energy, does not also relate to the change of material structure and performance, directly environment thermal energy is changed into electric energy.Thereby can be applied to generating or provide electric energy to use as power supply.Simultaneously, because heat energy is converted to electric energy, thereby produce the effect of absorption refrigeration.The refrigeration data are referring to embodiment.Thereby can be applied to refrigeration, and can be used as refrigerating plant, realize the refrigeration to space or pipe fitting.This shows that also the utility model has the technique effect of generating and refrigeration simultaneously.

In addition, the flow velocity of the temperature of the output of the open circuit voltage between the utility model positive pole and the negative pole and intermediary's medium, ion concentration, intermediary's medium has much relations.Thereby can also be applied to detected temperatures, ion concentration or flow velocity, and make corresponding temperature-detecting device or temperature sensor, ion concentration or solution concentration detector or ion concentration or type solution concentration sensor, flow velocity or wind speed detection device or flow velocity air velocity transducer.

The temperature of the utility model agency medium is very responsive, under the situation of fix in ion concentration, intermediary's medium is relatively static, intermediary's medium directly acts on intermediate, the proportional relation of the temperature of the open circuit voltage between positive pole and the negative pole and intermediary's medium, the temperature of intermediary's medium is higher, and its open circuit voltage is also higher.According to this principle, as long as the intermediate of Conversion of Energy unit is put into tested intermediary medium, by detecting the open circuit voltage between positive pole and the negative pole, and the relation of open circuit voltage and intermediary's medium temperature between the positive pole that obtains before the contrast and the negative pole, the temperature of acquisition intermediary medium.The temperature that this temperature testing method obtains is the real-time temperature of intermediary's medium, but this temperature checking method is subjected to the ion concentration of intermediary's medium itself and the impact of motion state.Also having a kind of mode is with specific intermediary medium and intermediate sealing, then this device is put into the test environment of appointment.This method of testing is because intermediary's medium ion concentration is fixed, motion state is fixed, open circuit voltage relation between temperature and positive pole and the negative pole is also fixing, the result that test obtains is more accurate, but this method of testing need to etc. the identical result that just can obtain with the test environment temperature of temperature of the intermediary's medium in to be sealed, thereby can't obtain real-time temperature, there is time-delay in temperature detection result.

The utility model at a certain temperature, certain electrolyte solution is as intermediary's medium, electrolyte solution directly acts on intermediate, the open circuit voltage between positive pole and the negative pole becomes certain proportionate relationship with ion concentration.Ion concentration is higher, and its open circuit voltage is also higher.According to this principle, the intermediate of Conversion of Energy unit is placed in the detected solution, detect the open circuit voltage between positive pole and the negative pole, and contrast the open circuit voltage of before acquisition and the proportionate relationship between ion concentration or the solution concentration, can obtain ion concentration or the solution concentration of detected solution.This method also can be used for the ion concentration of test solution or the ion concentration of Signa Gel.

Electric energy output of the present utility model is relevant with the movement velocity of intermediary's medium, under uniform temperature and ion concentration, intermediary's medium acts on intermediate, and the open circuit voltage between positive pole and the negative pole becomes certain proportionate relationship with the speed of related movement of intermediary's medium and intermediate.The movement velocity of intermediary's medium is larger, and its open circuit voltage is also higher.According to this principle, the intermediate of Conversion of Energy unit is placed in the liquid, detect the open circuit voltage between positive pole and the negative pole, and the open circuit voltage that obtains before the contrast and the relation between the flow rate of liquid, can obtain the flow velocity of liquid.This method also can be used for testing wind speed.Simultaneously, the evenness speed of intermediary's medium is larger, and electric energy output is more, thereby can be directly the mobile handling machinery of intermediary's medium can be changed into electric energy.Such as can wind energy, ocean tidal power, utilizing ocean current energy change into electric energy output.

When the utility model is used as a kind of novel energy equipment or refrigeration plant, the utlity model has widely purposes, can be widely used in civilian, military generating and refrigeration, the lasting energy is provided.The utility model belongs to environmental protection equipment, is a kind of revolutionary energy device.The earth has the seawater of a hundred billion cubic meters, if take these seawater as the thermal source medium, this will provide the infinite energy for the mankind.Various potential application are enumerated as follows:

1, the refrigeration of building and the refrigeration of the lasting energy, particularly heavy construction and building and skyscraper is provided and the lasting energy is provided for building;

2, can be applicable to the various vehicles, such as automobile, train, steamer, submarine and Aero-Space, for these vehicles provide lasting power source;

3, can be applicable in various household electrical appliance, computer, portable electric appts or other civil electric appliances, for these electrical equipment, electronic equipment provide the energy and refrigeration;

4, can be applicable to the health auxiliary equipment, as energy support is provided for cardiac pacemaker.

Description of drawings

Fig. 1 and 2 is the structural representation of the utility model embodiment 1.Among the figure, 1 is intermediate; 2 is anodal; 3 is negative pole; 4 is positive wire; 5 is negative wire; 6 are substrate; 7 is anodal encapsulation; 8 are the negative pole encapsulation.Wherein, the structural representation when Fig. 1 does not encapsulate for anodal and negative pole, Fig. 2 are the structural representation after positive pole and the negative pole encapsulation.

Fig. 3 is the structural representation of the anodal and negative pole of the utility model embodiment 2 when not encapsulating.Among the figure, 1 is intermediate; 2 is anodal; 3 is negative pole; 4 is positive wire; 5 is negative wire.

Fig. 4 is the structural representation of the anodal and negative pole of the utility model embodiment 3 when not encapsulating.Among the figure, 1 is intermediate; 2 is anodal; 3 is negative pole; 4 is positive wire; 5 is negative wire.

Fig. 5 is the structural representation of the anodal and negative pole of the utility model embodiment 4 when not encapsulating.Among the figure, 1 is intermediate; 2 is anodal; 3 is negative pole; 4 is positive wire; 5 is negative wire.

Fig. 6 is the structural representation of the anodal and negative pole of the utility model embodiment 5 when not encapsulating.Among the figure, 1 is intermediate; 2 is anodal; 3 is negative pole.

Fig. 7 is the structural representation of the utility model embodiment 6.Among the figure, 1 is intermediate; 2 is anodal; 3 is negative pole; 10 is annular seal space; 11 is sealing ring; 12 is sealing plate.The sealing plate in front not shown in FIG..

Fig. 8 is the structural representation of the utility model embodiment 7.Among the figure, 1 is intermediate; 2 is anodal; 3 is negative pole; 10 is annular seal space; 11 is sealing ring; 12 is sealing plate.The sealing plate in front not shown in FIG..

Fig. 9 is 16 hours lasting output current test result figure among the utility model embodiment 8.

Figure 10 is output current and temperature relation test result figure among the utility model embodiment 9.

Figure 11 is output current and solution concentration relation test figure as a result among the utility model embodiment 10.

Figure 12 is output current voltage and load resistance relation test figure as a result among the utility model embodiment 11.Among the figure, the data that triangle symbol shows are output voltage, and the data that hexagonal symbol shows are output current.

Figure 13 is the output voltage figure as a result of different solutions test among the utility model embodiment 12.

Figure 14 is when intermediate adopts N doping type Graphene among the utility model embodiment 13, the output voltage of testing in different solutions.

Figure 15 is the output voltage figure that tests under the utility model embodiment 24 applying plasma environment.Wherein A is the result who tests in the Ar plasma, and B is the result who tests in the N2 plasma.

Figure 16 is the output voltage figure that tests under intermediary's medium different in flow rate condition among the utility model embodiment 29.

Figure 17 is the output voltage figure that tests under the situation of tidal motion at simulation intermediary medium among the utility model embodiment 29.

Figure 18 is the test circuit figure of each embodiment of the utility model.Wherein A is open circuit voltage test circuit figure; B is output voltage test circuit figure; C is output current test circuit figure.Among the figure, 100 is tested the utility model device, and 101 are load.

Figure 19 is the output current that the distance test between the Different electrodes obtains among the utility model embodiment 30, open circuit voltage figure.Among the figure, circular in midair symbolic representation be open circuit voltage, what square filled symbols represented is current data.

Figure 20 is the output current that the Different electrodes length testing obtains among the utility model embodiment 31, the open circuit voltage comparison diagram.Among the figure, what square symbols represented is open circuit voltage, and what triangle symbol represented is current data.

Figure 21 is rear 9 hours lasting output voltage figure of series connection among the utility model embodiment 32.

Embodiment

Below in conjunction with drawings and Examples, the utility model is described in further detail.

One, structure of the present utility model

Embodiment 1

As shown in Figure 1, the environmental energy reforming unit comprises the Conversion of Energy unit.The Conversion of Energy unit comprises intermediate 1, positive pole 2, negative pole 3.Intermediate 1 links to each other with anodal 2 negative poles 3, is clipped between positive pole 2 and the negative pole 3.Intermediate 1, positive pole 2, negative pole 3 are installed in the substrate 6, and positive pole 2 and negative pole 3 parallel placements have certain distance between the two, and the intermediate that is clipped in the middle and the external world include a contact-making surface, and the contact-making surface of intermediate is used for contact intermediary medium.Anodal 2 are connected to positive wire 4, and negative pole 3 is connected to negative wire 5.For avoid anodal 2 with the contacting of negative pole 3 and intermediary medium, to positive pole 2 and negative pole 3 encapsulation process.Structure after the encapsulation process as shown in Figure 2, anodal 2 skins comprise anodal encapsulation 7, negative pole 3 skins comprise negative pole encapsulation 8.The material of substrate 6 can be glass, pottery, PET(poly terephthalic acid class) or other plastics or the material that insulate.The fluid sealant with insulating property (properties) is adopted in anodal encapsulation 7 and negative pole encapsulation 8, such as epoxy resin, phenolic resins, organic siliconresin and unsaturated polyester resin etc.Intermediate 1 is semiconductive thin film, such as: silicon, germanium, zinc oxide, GaAs, zinc sulphide, cupric oxide, gallium nitride, titanium oxide, copper sulfide, molybdenum sulfide, bismuth sulfide, bismuth telluride, doping type graphene film or doping type diamond thin etc.The semiconductive thin film of intermediate 1 is prepared in semiconductive thin film 1 in the substrate 6 by solution or Vacuum Coating method.Anodal and negative pole utilizes vacuum moulding machine or printing to be made by the semiconductive thin film surface at intermediate 1.

Embodiment 2

With reference to embodiment 1, the semiconductor that is different from embodiment 1 and is the intermediate 1 of Conversion of Energy unit is the body material, thereby has lacked substrate 6, as shown in Figure 3.

Embodiment 3

With reference to embodiment 2, the positive pole 2 of Conversion of Energy unit and negative pole 3 adopt asymmetric layout, and as shown in Figure 4, positive pole 2 and negative pole 3 comprise chi structure.Wherein, the contact area between positive pole 2 and the intermediate 1 is less than the contact area between negative pole 3 and the intermediate 1.

Embodiment 4

With reference to embodiment 2, the positive pole 2 of Conversion of Energy unit and negative pole 3 adopt asymmetric layout, and as shown in Figure 5, anodal 2 is roundel, and the contact area between the intermediate 1 is far smaller than the contact area between negative pole 3 and the intermediate 1.

Embodiment 5

With reference to embodiment 2, the positive pole 2 of Conversion of Energy unit and negative pole 3 adopt asymmetric layout, and as shown in Figure 6, anodal 2 is roundel, and the contact area between the intermediate 1 is far smaller than the contact area between negative pole 3 and the intermediate 1.

Embodiment 6

As shown in Figure 7, the environmental energy reforming unit comprises the Conversion of Energy unit.The Conversion of Energy unit comprises intermediate 1, positive pole 2, negative pole 3.The outside comprises sealing plate 12, and sealing plate 12, positive pole 2, negative pole 3 consist of annular seal spaces 10.Annular seal space 10 is the space of sealing, and the top comprises sealing plate 12, and is not shown in FIG..Annular seal space 10 is used for placing intermediary's medium.Annular seal space 10 comprises intermediate 1.Intermediate 1 is clipped in the groove of positive pole 2 and negative pole 3.Intermediate 1 is the semiconductor bulk material.Perhaps intermediate 1 is semiconductive thin film, and the intermediate of its shaped semiconductor film also is fixed on substrate liner plate two sides by the mode of stickup, plated film, and the substrate liner plate is the body material of being made by insulating material.Anodal 2 is parallel staggered relatively with negative pole 3.Include sealing ring 11 between annular seal space 10 and anodal 2 negative poles 3.Sealing ring 11 is used for isolating intermediary's medium and anodal 2 negative poles 3, so that avoid intermediary's medium contact anodal 2 and negative pole 3.

Embodiment 7

As shown in Figure 8, the environmental energy reforming unit comprises the Conversion of Energy unit.The Conversion of Energy unit comprises a plurality of intermediates 1, positive pole 2, negative pole 3.The outside comprises sealing plate 12, and sealing plate 12, positive pole 2, negative pole 3 consist of annular seal spaces 10.Annular seal space 10 is the space of sealing, and the top comprises sealing plate 12, and is not shown in FIG..Annular seal space 10 is used for placing intermediary's medium.Annular seal space 10 comprises a plurality of intermediates 1.A plurality of intermediates 1 are clipped in the groove of positive pole 2 and negative pole 3, and parallel placement does not contact mutually, and the space is left in the centre.Intermediate 1 is the semiconductor bulk material.Perhaps intermediate 1 is semiconductive thin film, and the intermediate of its shaped semiconductor film also is fixed on substrate liner plate two sides by the mode of stickup, plated film, and the substrate liner plate is the body material of being made by insulating material.Anodal 2 is parallel staggered relatively with negative pole 3.Include sealing ring 11 between annular seal space 10 and anodal 2 negative poles 3.Sealing ring 11 is used for isolating intermediary's medium and anodal 2 negative poles 3, so that avoid intermediary's medium contact anodal 2 and negative pole 3.A plurality of intermediates 1 have identical positive pole 2 and negative pole 3, thereby form relation in parallel between positive pole 2 and negative pole 3.This situation is equal to parallel connection between a plurality of Conversion of Energies unit in effect.

Two, the utility model test data

Below in the situation that is not having to specify, given magnitude of voltage all is 10 minutes mean value of test.Among the following embodiment, relate to the circuit diagram of open circuit voltage test shown in Figure 19-A, the positive pole of tested the utility model device 100 and negative pole directly connect voltmeter; Relate to the circuit diagram of output voltage test shown in Figure 19-B, series connection one load 101 between the positive pole of tested the utility model device 100 and the negative pole, voltmeter connects and the load parallel connection; Relate to the circuit diagram of output current test shown in Figure 19-C, series load 101 and ammeter between the positive pole of tested the utility model device 100 and the negative pole.

Embodiment 8

Adopt the environmental energy reforming unit of the structure of embodiment 2, wherein, intermediate adopts silicon materials, the anodal gold that adopts, and negative pole adopts silver.The size of intermediate is: 0.05 centimetre of 1 cm x, 1 cm x.The contact area that intermediate is exposed to outer and intermediary's medium is: 0.8 centimetre of 0.3 cm x, that is, the distance between positive pole and the negative pole is 0.5 centimetre.The carrier concentration of silicon materials is 1.2 * 10 ¹²Every square centimeter.

It is 5 moles every liter copper chloride (CuCl that the environmental energy reforming unit of said structure is put into concentration ₂) in the solution, solution temperature is 25 ℃, the test open circuit voltage is 0.42 V.Loading under the 25 K Ω loading conditions between the both positive and negative polarity, the output current of test environment energy conversion device as shown in Figure 9.

Embodiment 9

It is 5 moles every liter copper chloride (CuCl that the environmental energy reforming unit of the structure of embodiment 8 is put into concentration ₂) in the solution, loading under the 25 K Ω loading conditions between the both positive and negative polarity, the output current of test environment energy conversion device and the relation between the temperature are as shown in figure 10.By finding out among Figure 10, under the situation of fix in load, solution concentration is fixing, temperature and electric current present proportional relation, and temperature is higher, and output current is larger.This shows that the utility model can be applied to detected temperatures, make temperature-detecting device or temperature sensor.

Embodiment 10

The environmental energy reforming unit of the structure of embodiment 8 is put into copper chloride (CuCl ₂) in the solution, under 25 ℃ of conditions, add under the 25 K Ω loading conditions, the relation of the output current of test environment energy conversion device and copper chloride solution concentration is as shown in figure 11.By finding out among Figure 11, under the situation of fix in load, temperature is fixing, solution concentration and electric current present proportional relation, and solution concentration is higher, and the electric current of output is larger.This shows that the utility model can be applied to detect ion concentration or solution concentration, make ion concentration or solution concentration detector or ion concentration or type solution concentration sensor.

Embodiment 11

It is 5 moles every liter copper chloride (CuCl that the environmental energy reforming unit of the structure of embodiment 8 is put into concentration ₂) in the solution, under 25 ℃ of conditions, output current and the output voltage of device obtain effect as shown in figure 12 under the different external resistor conditions.And calculate maximum power output according to the above results and be: 8.2 microwatts, can draw according to the environmental energy reforming unit size of said structure, energy conversion efficiency is: every square centimeter of 8.2 microwatt.Take thickness as 0.05 centimetre of calculating, then be every cubic centimetre of 164 microwatt, namely 1.64 kilowatts electric power can be exported in every cubic metre space.In the production of reality, above-mentioned environmental energy reforming unit or Conversion of Energy unit can be done littlely, can export more electric power.

Embodiment 12

It is 4 moles every liter CuCl that the environmental energy reforming unit of the structure of embodiment 8 is put into concentration ₂, HCl, KCl, NaCl, CoCl ₂And NiCl ₂In the electrolyte solution, the temperature of electrolyte solution adds under the 25 K Ω loading conditions under 25 ℃ of conditions, the output voltage of test environment energy conversion device, and the result who obtains is as shown in figure 13.By this figure can find out output voltage become with ionic radius positive correlation (except the HCl, the H in this electrolyte ⁺Mainly with H _-3O ⁺Form exists).

Embodiment 13

Adopt the environmental energy reforming unit of the structure of embodiment 1, wherein, intermediate adopts N doping type Graphene, and glass material is adopted in substrate, the anodal gold that adopts, and negative pole adopts silver.The size of intermediate is: 1 cm x, 1 cm x (1.0 * 10 ^-7) centimetre.The contact area that intermediate is exposed to outer and intermediary's medium is: 0.8 centimetre of 0.3 cm x, that is, the distance between positive pole and the negative pole is 0.5 centimetre.The internal resistance of environmental energy reforming unit is 2.5 K Ω.

It is 1 mole of every liter of FeCl that the environmental energy reforming unit of said structure is put into concentration ₃, CuCl ₂, HCl, NaCl, CoCl ₂And NiCl ₂In the electrolyte solution, the temperature of electrolyte solution is loading under the 200 K Ω loading conditions under 25 ℃ of conditions, and the output voltage of test component obtains effect as shown in figure 14.

Embodiment 14

The environmental energy reforming unit of the structure of embodiment 13 is put into the pure water environment, under the condition of 25 ℃ of pure water, depress at 1 standard atmosphere, in the situation that loads 1 M Ω resistance, the output voltage that measures is near 85 μ V.

The environmental energy reforming unit of the structure of embodiment 13 is put into briny environment, under the condition of 25 ℃ in seawater, depress at 1 standard atmosphere, in the situation that loads 200 K Ω resistance, the output voltage that measures is near 5.2 mV.

The environmental energy reforming unit of the structure of embodiment 13 is put into fresh water environment, under the condition of 25 ℃ of fresh water, depress at 1 standard atmosphere, in the situation that loads 200 K Ω resistance, the output voltage that measures is near 0.5 mV.

Above-mentioned test result in pure water, seawater, fresh water shows that the output voltage of environmental energy reforming unit in pure water compared few 2 orders of magnitude with the output voltage in seawater.This result shows that the ion concentration of intermediary's medium has a significant impact environmental energy reforming unit tool of the present utility model.

Embodiment 15

The environmental energy reforming unit of the structure of embodiment 13 is put into the physiological saline environment.Described physiological saline is used for simulation life entity environment, under the condition of 25 ℃ in physiological saline, depresses at 1 standard atmosphere, and in the situation that loads 1 M Ω resistance, the output voltage that measures is near 1.2 mV.This test result shows that after the environmental energy reforming unit is integrated being expected to provides electric power energy for the human body servicing unit.

Embodiment 16

After positive pole in the environmental energy reforming unit of the structure of embodiment 8 and negative pole replace with following material respectively, put into concentration and be 5 moles every liter copper chloride (CuCl ₂) in the solution, under 25 ℃ of conditions, the result that the test open circuit voltage obtains is as shown in the table:

Test result by upper table can draw, and the open circuit voltage of border energy conversion device and the work function of electrode material have direct relation, adopts the situation of asymmetric work function electrode obviously higher than the open circuit voltage that the device that uses identical work function electrode produces.The open circuit voltage of the device of two electrode materials that the employing work function is higher than silicon materials (4.65 eV) work function is about 1 mV, and that work function is less than or equal to the open circuit voltage of device of two electrode materials of silicon materials work function is relatively high, is about about 0.1 V.

Embodiment 17

The silicon materials of the intermediate in the environmental energy reforming unit of the structure of embodiment 8 replace with following material respectively:

1, germanium

2, N-type silicon 2(doping content is 10 ¹⁷/ cm ²)

3, N-type silicon 3(doping content is 10 ¹⁵/ cm ²)

4, N-type silicon 4(doping content is 10 ¹¹/ cm ²)

5, P type silicon 1(doping content is 10 ¹²/ cm ²)

6, GaAs

7, gallium nitride

8, zinc oxide

9, zinc sulphide

10, titanium oxide

11, cupric oxide

12, copper sulfide

13, molybdenum sulfide

14, bismuth sulfide

15, bismuth telluride

With the environmental energy reforming unit after the above-mentioned replacement, being placed on respectively molar concentration and being in 4 moles every liter the KCl solution, is under 25 ℃ of conditions at solution temperature, tests the semiconductor of above-mentioned unlike material as intermediate, obtain the open circuit voltage at electrode two ends, as shown in the table:

Loading under the 25 K Ω loading conditions, be respectively 0.1 mV, 60 mV and 220 mV for N-

type silicon

2,3 and 4 output voltage.Result by upper table and loading test draws, no matter semiconductor type is P type or N-type, as long as carrier concentration is less than 10 ¹⁵/ cm ²Device just has an obvious voltage to produce, and along with the reducing of carrier concentration, open circuit voltage increases, but compares the environmental energy reforming unit of embodiment 7, and the output voltage of the environmental energy reforming unit of embodiment 6 reduces on the contrary.Show that thus as the semiconductor silicon material of intermediate, doping content becomes positive correlation with open circuit voltage, is normal distribution with output voltage.

Embodiment 18

Adopt the environmental energy reforming unit of the structure of embodiment 1, wherein, intermediate adopts P doping type diamond thin, and glass material is adopted in substrate, the anodal gold that adopts, and negative pole adopts silver.The size of intermediate is: 0.01 centimetre of 1 cm x, 1 cm x.The contact area that intermediate is exposed to outer and intermediary's medium is: 0.8 centimetre of 0.3 cm x, that is, the distance between positive pole and the negative pole is 0.5 centimetre.The internal resistance of environmental energy reforming unit is 2.8 K Ω.

It is 5 moles every liter copper chloride (CuCl that the environmental energy reforming unit of said structure is put into concentration ₂) in the solution, solution temperature is 25 ℃, is loading under the 220 K Ω loading conditions between the both positive and negative polarity, the output voltage of test environment energy conversion device is 85 mV.

Embodiment 19

Adopt the environmental energy reforming unit of the structure of embodiment 1, wherein, intermediate adopts N doping type Graphene, and glass material is adopted in substrate.The size of intermediate is: 1 cm x, 1 cm x (1.0 * 10 ^-7) centimetre.The contact area that intermediate is exposed to outer and intermediary's medium is: 0.8 centimetre of 0.3 cm x, that is, the distance between positive pole and the negative pole is 0.5 centimetre.The internal resistance of environmental energy reforming unit is 2.5 K Ω.

The employing of the positive pole of the environmental energy reforming unit of said structure is through the gold of polymethyl methacrylate (PMMA) finishing, and negative pole adopts polyvinyl acetate (PVA) to do the gold of finishing, puts into concentration and be 5 moles every liter copper chloride (CuCl ₂) in the solution, solution temperature is 25 ℃, is loading under the 25 K Ω loading conditions between the both positive and negative polarity, the output voltage of test environment energy conversion device is 28 mV.

The employing of the positive pole of the environmental energy reforming unit of said structure is through the gold of n-dodecyl mercaptan finishing, and negative pole adopts hexyl mercaptan to do the gold of finishing, puts into concentration and be 5 moles every liter copper chloride (CuCl ₂) in the solution, solution temperature is 25 ℃, is loading under the 25 K Ω loading conditions between the both positive and negative polarity, the output voltage of test environment energy conversion device is 19 mV.

The employing of the positive pole of the environmental energy reforming unit of said structure is through the silver of polymethyl methacrylate (PMMA) finishing, and negative pole adopts polyvinyl acetate (PVA) to do the silver of finishing, puts into concentration and be 5 moles every liter copper chloride (CuCl ₂) in the solution, solution temperature is 25 ℃, is loading under the 25 K Ω loading conditions between the both positive and negative polarity, the output voltage of test environment energy conversion device is 195 mV.

The employing of the positive pole of the environmental energy reforming unit of said structure is through the silver of n-dodecyl mercaptan finishing, and negative pole adopts hexyl mercaptan to do the silver of finishing, puts into concentration and be 5 moles every liter copper chloride (CuCl ₂) in the solution, solution temperature is 25 ℃, is loading under the 25 K Ω loading conditions between the both positive and negative polarity, the output voltage of test environment energy conversion device is 180 mV.

Above result shows that above molecular modification electrode surface has been equal to regulate and control the work function of electrode, so that device has the similar effect of the different work functions electrode of use.

Embodiment 20

Adopt the environmental energy reforming unit of the structure of embodiment 5, as shown in Figure 6, intermediate is the square of 2 centimetres of the length of sides, the disk that the just very diameter at center is 0.5 centimetre, and the outer length of side of negative pole is 1.6 centimetres on every side, the interior length of side is 1.4 centimetres square ring-type sheet.Intermediate adopts silicon materials.

The environmental energy reforming unit of above-mentioned structure, both positive and negative polarity all adopts ag material, puts it into concentration and be 5 moles every liter copper chloride (CuCl ₂) in the solution, solution temperature is 25 ℃, is loading under the 25 K Ω loading conditions between the both positive and negative polarity, the output voltage of test environment energy conversion device is 185 mV.

The environmental energy reforming unit of above-mentioned structure, the anodal gold copper-base alloy that adopts, negative pole adopts ag material, puts it into concentration and be 5 moles every liter copper chloride (CuCl ₂) in the solution, solution temperature is 25 ℃, is loading under the 25 K Ω loading conditions between the both positive and negative polarity, the output voltage of test environment energy conversion device is 368 mV.

The environmental energy reforming unit of above-mentioned structure, the anodal gold that adopts the finishing of anodal employing polymethyl methacrylate (PMMA), negative pole adopt to adopt adopts polyvinyl acetate (PVA) to do the silver of finishing, puts it into concentration and be 5 moles every liter copper chloride (CuCl ₂) in the solution, solution temperature is 25 ℃, is loading under the 25 K Ω loading conditions between the both positive and negative polarity, the output voltage of test environment energy conversion device is 398 mV.

This result shows: it is poor that the asymmetry of anodal and negative pole shape and structure equally can induced electric potential, so that the environmental energy reforming unit has higher output characteristic.

Embodiment 21

Consider the situation of organic solution

The environmental energy reforming unit of the structure of embodiment 13 being placed in 1 standard atmosphere depressing in the ethanolic solution that concentration is 4 moles of every liter of sodium chloride, is under 25 ℃ the condition, to load in the situation of 220 K Ω resistance in temperature, and the output voltage that measures is 26 mV.

Embodiment 22

Consider the situation under the air ambient

The environmental energy reforming unit of the structure of embodiment 13 is placed in the air ambient that 1 standard atmosphere depresses, and is that in the situation that loads 1 M Ω resistance, the output voltage that measures is near 65 μ V under 25 ℃ the condition in temperature.

Embodiment 23

The environmental energy reforming unit of the structure of embodiment 13 is placed in the following gas, is 1 MPa at pressure, and temperature is that the open circuit voltage that records device is as shown in the table under 25 ℃ of conditions:

Above gas purity is all greater than 99.99%.Above result shows that along with the increase of molecular radius, the open circuit voltage that device produces reduces successively.

Embodiment 24

Consider the plasma situation

Adopt the environmental energy reforming unit of the structure of embodiment 1, wherein, intermediate adopts N doping type Graphene, and glass material is adopted in substrate, the anodal graphite that adopts, and negative pole adopts silver.The size of intermediate is: 1 cm x, 1 cm x (1.0 * 10 ^-7) centimetre.The contact area that intermediate is exposed to outer and intermediary's medium is: 0.8 centimetre of 0.3 cm x, that is, the distance between positive pole and the negative pole is 0.5 centimetre.

With the environmental energy reforming unit of said structure, being placed on energy density is 8 mW/cm ², pressure environment is in the plasma of 600 mTorr.Under 25 ℃ of conditions of room temperature, load in the 220 K Ω situations, the relation of measured output voltage and time is as shown in figure 15.Wherein A is the isoionic situation of Ar, and B is N ₂The situation of plasma.

Embodiment 25

Consider the situation of liquid metal

The environmental energy reforming unit of the structure of embodiment 13 is placed in the environment of liquid mercury, and under 25 ℃ of conditions of room temperature, in external resistor 200 K Ω situations, the output voltage of test component is 12 mV.

The environmental energy reforming unit of the structure of embodiment 13 is placed in the environment of liquid gallium, and under 35 ℃ of conditions of temperature, in external resistor 200 K Ω situations, the output voltage of test component is 30 mV.

Embodiment 26

Consider organic semiconductor

Adopt the environmental energy reforming unit of the structure of embodiment 1, glass material is adopted in substrate, the anodal gold that adopts, and negative pole adopts silver.Intermediate adopts poly-3 basic thiophene (P3HT), and the size of intermediate is: 1 centimetre of 1 cm x, thickness are 100 nanometers.The contact area that intermediate is exposed to outer and intermediary's medium is: 0.8 centimetre of 0.3 cm x, that is, the distance between positive pole and the negative pole is 0.5 centimetre.The intermediate film of P3HT adopts the spin-coating method preparation: under 25 ℃ of the room temperatures, 3000 turn, and the film thickness of 30 s is 100 nm, then hot platform with 80 ℃ under with its oven dry.

The environmental energy reforming unit of said structure is placed in 3 moles every liter the NaCl solution, and under 25 ℃ of the room temperatures, in the external resistor 200 K Ω situations, the output voltage of test component is 25 mV.

Intermediate in the environmental energy reforming unit of said structure adopts 3,4-ethylenedioxy thiophene (PEDOT) places it in 3 moles every liter the NaCl solution, under 25 ℃ of the room temperatures, in the external resistor 200 K Ω situations, the output voltage of test component is 18 mV.

Embodiment 27

The Signa Gel situation

The environmental energy reforming unit of the structure of embodiment 13 is positioned over is equipped with in water-based high-molecular gel (medical conductive paste) bottle, under 25 ℃ of conditions, when external resistor was 220 K Ω, the output voltage that measures was 35 mV.

Embodiment 28

The refrigeration test

With two plastic jar of same specification, in same concentrations is housed is 5 moles every liter CuCl ₂Solution is placed in the same vacuum chamber, and vacuum degree is 1.5 * 10 ⁶Torr.Wherein, put into the environmental energy reforming unit of the structure of embodiment 13 in first bottle, and load the load of 25 K Ω, second bottle is empty.After 105 hours, first bottle temperature that environmental energy reforming unit is housed is than low 0.3 ℃ of second temperature.

Above-mentioned test result shows, environmental energy reforming unit of the present utility model is in generating, because heat absorption causes the temperature of environment to reduce, simultaneously proved that also environmental energy reforming unit of the present utility model can change into electric energy with heat energy really, the electric energy of device output comes from environment thermal energy.Above-mentioned test result also shows simultaneously, and environmental energy reforming unit of the present utility model can be applied to refrigeration, and when producing electric energy, reaches the effect of refrigeration.

Embodiment 29

(a) Fluid Flow in A+heat energy=electricity output.

The environmental energy reforming unit of the structure of embodiment 13 is positioned over 1 mole every liter CuCl ₂In the solution, under 25 ℃ of the room temperatures, in the situation that adds 220 K Ω loads, along with the variation of flow velocity, operating voltage such as Figure 16 that test obtains.Above-mentioned test is that device is fixed in the circular quartz ampoule that diameter is 6 cm, and sample is parallel to tube axial direction, and the both positive and negative polarity of test is drawn from an end wherein.Current flow to the other end from an end of pipe, with the both positive and negative polarity keeping parallelism direction of sample.

(b) tide simulation can be generated electricity, and utilizes to lift generation mechanical movement+heat energy=electricity output

With the environmental energy reforming unit of the structure of embodiment 13 in 1 mole every liter CuCl ₂In the solution, under 25 ℃ of the room temperatures, in the situation that adds 220 K Ω loads, along with the variation of pull rate, operating voltage such as Figure 17 that test obtains.Test environment is to adopt micro motor to drive, and sample is bonded in an end of micro motor rope, then opens motor, regulates pull rate, is filling CuCl ₂The solution surface of the bottle of solution moves up and down up and down.

Above result shows, Fluid Flow in A and the combination of molecule heat energy can be obtained constantly efficiently electricity output; Maybe will utilize tidal wave fluctuation and molecule heat energy in conjunction with obtaining instantaneous efficient electric output.

Embodiment 30

Conversion of Energy unit with reference to the structure of embodiment 8 keeps other structure and materials constant, the distance between positive pole and the negative pole is set as respectively in 0.3 centimetre to 10 centimetres scope change.It is 5 moles every liter copper chloride (CuCl that the environmental energy reforming unit of above-mentioned different structure is put into concentration ₂) in the solution, solution temperature is 25 ℃, loading between the both positive and negative polarity under the 25 K Ω loading conditions, the test environment energy conversion device under different both positive and negative polarity distance output current and output voltage as shown in figure 19, as can be seen from the figure open circuit voltage is about 0.42V, output voltage is about 0.25V, and output current is about 7.5 μ A.

Above-mentioned test result shows that output current or voltage do not change with the variation of distance.The result shows, the carrier diffusion length of silicon is in micron dimension, the variation of electrode spacing in the macro-size scope, the charge carrier quantity that produces at semiconductor surface is to have increased significantly, but owing to transport the increase of length, the free carrier of a large amount of delocalizations is compound by the institute of the hole in the way again.Therefore, population effect remains unchanged substantially.The carrier mobility of considering silicon is micron dimension, and the carrier mobility of the thin-film materials such as Graphene is in nanometer scale, therefore selects the width of two electrodes should be proper in the scope of 100 nanometers to 10 centimetre.

Embodiment 31

Conversion of Energy unit with reference to the structure of embodiment 8, keep other structure and materials constant, but the length of two electrodes changes to 2.4 centimetres so that anodal with negative pole and intermediate different contacts area is arranged from 0.8 centimetre, and intermediate has different contacts area with the intermediary medium.It is 5 moles every liter copper chloride (CuCl that the environmental energy reforming unit of above-mentioned different structure is put into concentration ₂) in the solution, solution temperature is 25 ℃, is loading under the 25 K Ω loading conditions between the both positive and negative polarity, open circuit voltage, output current and the output voltage of test environment energy conversion device under different both positive and negative polarity length is as shown in figure 20.As can be seen from Figure, the open circuit voltage between positive pole and the negative pole remains on about 0.42V, and output current and output voltage increase with the increase of electrode length.

The above results shows, the open circuit voltage of the device of various Different electrodes length is consistent, but the device that the device output voltage that electrode length is long and operating current all compare noncontinuous electrode is large, and wherein the device of 2.4 centimetre length electrodes is than the device of 0.8 centimetre length electrode large 20%.In fact this situation can be equivalent to the parallel connection of a plurality of Conversion of Energies unit.

Embodiment 32

The series connection test

Conversion of Energy units in series with the structure of 8 embodiment 8 is placed on 5 moles every liter CuCl ₂In the solution, under the condition of 25 ℃ of room temperatures, the open circuit voltage of test component is 2.5 V, and the output voltage that continuance test obtained after 9 hours and time curve are as shown in figure 21.

Energy conversion unit series connection with the structure of 4 embodiment 8 is placed on 5 moles every liter CuCl ₂In the solution, under the condition of 25 ℃ of room temperatures, the operating current of test component is 36 μ A.

Therefore, in order to reach the practical demand of this patent, can realize by serial or parallel connection the amplification of voltage or electric current.On the theory, for silicon materials, the carrier diffusion length of silicon is in micron dimension.Therefore, as long as we do rational electrode design to silicon face, such as using the interdigital electrode structure to make it integrated, the open circuit voltage of device and voltage and current all can be significantly increased.Such as 1000 of the such miniature devices of series connection, theoretical open circuit voltage can reach 350 V, and the semiconductor technology of this integrated technology and silicon is compatible, is easy realization.If 1000 of in parallel such miniature devices, the theoretical work electric current can reach 10 mA; 1000000 of in parallel such miniature devices, the theoretical work electric current can reach 10 A, and this is enough to reach the degree of practical requirement.

Claims

1. the environmental energy reforming unit is characterized in that: comprise the Conversion of Energy unit; Described Conversion of Energy unit comprises: positive pole, negative pole, intermediate; Described intermediate is made by semiconductor, is clipped between positive pole and the negative pole, and both sides are connected with anodal, negative pole respectively; Anodal and negative pole has asymmetry.

2. environmental energy reforming unit as claimed in claim 1 is characterized in that, described positive pole and negative pole have the combination that asymmetry comprises one of following situation or following situation:

Described positive pole and negative pole are made by the material of different work functions, and anodal work function WP, the work function WN of negative pole, the work function WX of intermediate meet the following conditions: WP＞WX 〉=WN;

Described positive pole and negative pole adopt the molecule of different chain length that it is done finishing, and perhaps described positive pole and negative pole adopt the molecule of different structure that it is done finishing;

Described positive pole has different geometric shapes with negative pole, and wherein the contact area of positive pole and intermediate is less than the contact area of negative pole and intermediate.

3. environmental energy reforming unit as claimed in claim 1 is characterized in that, described semiconductor is organic semiconductor or inorganic semiconductor.

4. environmental energy reforming unit as claimed in claim 3, it is characterized in that described inorganic semiconductor is silicon, germanium, GaAs, gallium nitride, zinc oxide, zinc sulphide, titanium oxide, cupric oxide, copper sulfide, molybdenum sulfide, bismuth sulfide, bismuth telluride, doping type Graphene or doping type diamond.

5. environmental energy reforming unit as claimed in claim 3 is characterized in that, described organic semiconductor is poly-3 basic thiophene or 3,4-ethylene dioxythiophenes.

6. environmental energy reforming unit as claimed in claim 1 is characterized in that, described Conversion of Energy unit comprises spacer assembly, is used for isolation anodal and intermediary's medium and isolation negative pole and intermediary's medium; Described intermediary medium is gas, liquid, gel or plasma.

7. environmental energy reforming unit as claimed in claim 1 is characterized in that, the intermediate in the described Conversion of Energy unit has a plurality of, and a plurality of intermediates have identical positive pole and negative pole, thereby forms relation in parallel between positive pole and negative pole.

8. environmental energy reforming unit as claimed in claim 1 is characterized in that, described Conversion of Energy unit comprises intermediary's medium; Described intermediary medium is inorganic electrolyte solution, organic electrolyte solution, Signa Gel or liquid metal.

9. environmental energy reforming unit as claimed in claim 8 is characterized in that, described inorganic electrolyte solution is the aqueous solution of sodium chloride, potassium chloride, nickel chloride, cobalt chloride, lithium chloride, copper chloride or iron chloride.

10. environmental energy reforming unit as claimed in claim 8 is characterized in that, described Conversion of Energy unit comprises annular seal space; Annular seal space adopts insulating material to make; Described intermediary medium and intermediate are sealed in the annular seal space.

11. environmental energy reforming unit as claimed in claim 8 is characterized in that, described intermediary medium moves.

12. environmental energy reforming unit as claimed in claim 1 is characterized in that, described Conversion of Energy unit comprises a plurality of, and each Conversion of Energy unit interconnects through in parallel and series connection.