WO2022191087A1 - 電解液およびその製造方法ならびに二次電池 - Google Patents
電解液およびその製造方法ならびに二次電池 Download PDFInfo
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- WO2022191087A1 WO2022191087A1 PCT/JP2022/009540 JP2022009540W WO2022191087A1 WO 2022191087 A1 WO2022191087 A1 WO 2022191087A1 JP 2022009540 W JP2022009540 W JP 2022009540W WO 2022191087 A1 WO2022191087 A1 WO 2022191087A1
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- Prior art keywords
- ether
- hydrocarbon group
- electrolytic solution
- less
- secondary battery
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Images
Classifications
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- H01M10/00—Secondary cells; Manufacture thereof
- H01M10/05—Accumulators with non-aqueous electrolyte
- H01M10/056—Accumulators with non-aqueous electrolyte characterised by the materials used as electrolytes, e.g. mixed inorganic/organic electrolytes
- H01M10/0564—Accumulators with non-aqueous electrolyte characterised by the materials used as electrolytes, e.g. mixed inorganic/organic electrolytes the electrolyte being constituted of organic materials only
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- H01M10/056—Accumulators with non-aqueous electrolyte characterised by the materials used as electrolytes, e.g. mixed inorganic/organic electrolytes
- H01M10/0564—Accumulators with non-aqueous electrolyte characterised by the materials used as electrolytes, e.g. mixed inorganic/organic electrolytes the electrolyte being constituted of organic materials only
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- H01M10/00—Secondary cells; Manufacture thereof
- H01M10/05—Accumulators with non-aqueous electrolyte
- H01M10/056—Accumulators with non-aqueous electrolyte characterised by the materials used as electrolytes, e.g. mixed inorganic/organic electrolytes
- H01M10/0564—Accumulators with non-aqueous electrolyte characterised by the materials used as electrolytes, e.g. mixed inorganic/organic electrolytes the electrolyte being constituted of organic materials only
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- H01M4/02—Electrodes composed of, or comprising, active material
- H01M4/13—Electrodes for accumulators with non-aqueous electrolyte, e.g. for lithium-accumulators; Processes of manufacture thereof
- H01M4/134—Electrodes based on metals, Si or alloys
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- H01—ELECTRIC ELEMENTS
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- H01M4/13—Electrodes for accumulators with non-aqueous electrolyte, e.g. for lithium-accumulators; Processes of manufacture thereof
- H01M4/136—Electrodes based on inorganic compounds other than oxides or hydroxides, e.g. sulfides, selenides, tellurides, halogenides or LiCoFy
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- H01M—PROCESSES OR MEANS, e.g. BATTERIES, FOR THE DIRECT CONVERSION OF CHEMICAL ENERGY INTO ELECTRICAL ENERGY
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- H01M4/02—Electrodes composed of, or comprising, active material
- H01M4/36—Selection of substances as active materials, active masses, active liquids
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- H01M4/36—Selection of substances as active materials, active masses, active liquids
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E60/00—Enabling technologies; Technologies with a potential or indirect contribution to GHG emissions mitigation
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
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- Y02P—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
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Definitions
- the present invention relates to an electrolytic solution, its manufacturing method, and a secondary battery.
- secondary batteries have a structure in which a positive electrode, a negative electrode, a separator, and an electrolytic solution are enclosed in an outer package.
- it is important to reduce the amount of electrolyte from the viewpoint of energy density.
- cycle characteristics that suppress a decrease in discharge capacity even after repeated charging and discharging are also important.
- Patent Document 1 a non-aqueous solvent selected from the group consisting of acyclic ethers, cyclic ethers, polyethers and sulfones; lithium salt; and an aqueous electrolyte containing a nitrile additive Attempts have been made to improve charge/discharge characteristics.
- the inventors of the present invention have found that the conventional technology causes the following new problems. (1) When the amount of electrolytic solution is reduced, there is a problem that sufficient discharge capacity cannot be obtained from the initial discharge. (2) Repeated charging and discharging reduced the discharge capacity, and sufficient cycle characteristics could not be obtained.
- An object of the present invention is to provide an electrolytic solution that is sufficiently excellent in terms of discharge characteristics and/or cycle characteristics even if the amount of electrolytic solution is reduced.
- An electrolyte solution for a secondary battery comprising an electrolyte and a solvent
- the electrolyte comprises a sulfonyl group-containing lithium salt and lithium nitrate
- the total content of the sulfonyl group-containing lithium salt and the lithium nitrate is 0.8 mol/L or more and 2.0 mol/L or less
- Said solvents relate to electrolytes, including linear ethers and fluorinated ethers.
- a secondary battery provided with the electrolytic solution of the present invention can obtain a sufficient discharge capacity from the initial discharge even if the amount of the electrolytic solution is reduced.
- a secondary battery comprising the electrolytic solution of the present invention is also sufficiently excellent in terms of cycle characteristics.
- FIG. 4 is a graph showing initial discharge curves of secondary batteries each provided with an electrolyte prepared in Examples 1 and 2 and Comparative Example 1.
- FIG. 4 is a graph showing the relationship between the initial discharge capacity and the dilution ratio of secondary batteries provided with each of the electrolytic solutions prepared in Examples 1 and 2 and Comparative Example 1.
- FIG. 4 is a graph showing the relationship between the discharge capacity and the number of cycles of secondary batteries produced using the electrolyte solutions of Example 1 and Comparative Example 1.
- FIG. 1 is a schematic cross-sectional view of a secondary battery (cylindrical secondary battery) provided as one embodiment of the present invention;
- FIG. 1 is a schematic perspective view of a secondary battery (flat plate type laminate film type secondary battery) provided as one embodiment of the present invention.
- Secondary battery refers to a battery that can be repeatedly charged and discharged.
- Secondary battery is not overly bound by its name, and can include, for example, electrochemical devices such as "power storage device.”
- a secondary battery of the present invention includes a positive electrode, a negative electrode, and an electrolytic solution, and usually further includes a separator disposed between the positive electrode and the negative electrode.
- the secondary battery of the present invention usually comprises a positive electrode, a negative electrode, an electrolytic solution, a separator, and the like, which are enclosed in an outer package.
- the electrolytic solution is a non-aqueous electrolytic solution.
- the non-aqueous electrolytic solution means an electrolytic solution in which the medium through which electrolyte ions move does not contain water, that is, an electrolytic solution using only an organic solvent as the medium.
- the electrolytic solution contains an electrolyte and a solvent.
- the electrolyte of the electrolytic solution contains a sulfonyl group-containing lithium salt and lithium nitrate. If the electrolyte does not contain one or both of the sulfonyl group-containing lithium salt and lithium nitrate, sufficient discharge characteristics may not be obtained and/or sufficient cycle characteristics may not be obtained.
- Lithium salts containing sulfonyl groups such as LiTFSI, which have a high degree of dissociation, are required for dissolution in linear ethers, and redox shuttle occurs without lithium nitrate. Since the electrolyte is dissolved in the solvent in the electrolytic solution, the electrolytic solution has the form of a solution.
- a solution refers to a state or form in which an electrolyte is uniformly dispersed in a solvent at the molecular level to the extent that the electrolyte is visually transparent at room temperature (eg, 25° C.).
- discharge characteristics refers to characteristics in which a sufficient discharge capacity can be obtained from the initial discharge.
- Cycle characteristics are characteristics in which discharge capacity is sufficiently maintained by repeated charging and discharging.
- a sulfonyl group-containing lithium salt is an organic lithium salt containing a sulfonyl group ( --SO.sub.2-- ) in its molecular structure.
- Specific examples of the sulfonyl group-containing lithium salt include, for example, 1 selected from the group consisting of a sulfonylimide lithium salt represented by the following general formula (S1) and a sulfonic acid lithium salt represented by the following general formula (S2): More than one species of compound is included.
- the sulfonyl group-containing lithium salt is preferably a sulfonylimide lithium salt represented by the following general formula (S1) from the viewpoint of further improving discharge characteristics and cycle characteristics.
- R 1 and R 2 are each independently a halogen atom or a halogen atom-containing hydrocarbon group having 1 to 10 carbon atoms, and from the viewpoint of further improving discharge characteristics and cycle characteristics, A halogen atom or a halogen atom-containing hydrocarbon group having 1 to 5 carbon atoms is preferred, and a halogen atom-containing hydrocarbon group having 1 to 3 carbon atoms is more preferred.
- the halogen atom-containing hydrocarbon group is a monovalent hydrocarbon group and is a saturated aliphatic hydrocarbon group, unsaturated aliphatic hydrocarbon group or aromatic hydrocarbon group as long as it contains a halogen atom.
- halogen atoms contained in the halogen atom-containing hydrocarbon group is not particularly limited as long as at least part of the hydrogen atoms in the hydrocarbon group are substituted with halogen atoms.
- all hydrogen atoms of the hydrocarbon group are preferably replaced with halogen atoms from the viewpoint of further improving discharge characteristics and cycle characteristics.
- the halogen atom may be a fluorine atom, a chlorine atom, or a bromine atom, and is preferably a fluorine atom from the viewpoint of further improving discharge characteristics and cycle characteristics.
- the halogen atom-containing hydrocarbon group is a saturated aliphatic hydrocarbon group and all hydrogen atoms thereof are substituted with fluorine atoms
- the halogen atom-containing hydrocarbon group can be referred to as a perfluoroalkyl group.
- Preferred halogen atom-containing hydrocarbon groups for R 1 and R 2 include, for example, perfluoromethyl group, perfluoroethyl group, perfluoropropyl group, perfluorobutyl group, perfluoropentyl group and the like. From the viewpoint of further improving discharge characteristics and cycle characteristics, R 1 and R 2 preferably represent the same group.
- Examples of such compounds represented by general formula (S1) include the following compounds.
- R 3 is a halogen atom or a halogen atom-containing hydrocarbon group having 1 to 10 carbon atoms, and from the viewpoint of further improving discharge characteristics and cycle characteristics, preferably a halogen atom or a number of carbon atoms It is a halogen atom-containing hydrocarbon group of 1 or more and 5 or less, more preferably a halogen atom-containing hydrocarbon group of 1 or more and 3 or less carbon atoms.
- the halogen atom-containing hydrocarbon group is the same as the halogen atom-containing hydrocarbon group for R 1 and R 2 , is a monovalent hydrocarbon group, and is a saturated aliphatic hydrocarbon as long as it contains a halogen atom.
- halogen atom-containing hydrocarbon group an unsaturated aliphatic hydrocarbon group or an aromatic hydrocarbon group, and from the viewpoint of further improving discharge characteristics and cycle characteristics, a saturated aliphatic hydrocarbon group (alkyl group) is preferred.
- the number of halogen atoms contained in the halogen atom-containing hydrocarbon group is not particularly limited as long as at least part of the hydrogen atoms in the hydrocarbon group are substituted with halogen atoms.
- all hydrogen atoms of the hydrocarbon group are preferably replaced with halogen atoms from the viewpoint of further improving discharge characteristics and cycle characteristics.
- the halogen atom may be a fluorine atom, a chlorine atom, or a bromine atom, and is preferably a fluorine atom from the viewpoint of further improving discharge characteristics and cycle characteristics.
- the halogen atom-containing hydrocarbon group is a saturated aliphatic hydrocarbon group and all hydrogen atoms thereof are substituted with fluorine atoms
- the halogen atom-containing hydrocarbon group can be referred to as a perfluoroalkyl group.
- Preferred halogen atom-containing hydrocarbon groups for R 3 include the same halogen atom-containing hydrocarbon groups as preferred for R 1 and R 2 .
- Examples of such compounds represented by general formula (S2) (which may also be referred to as compound (S2) or lithium sulfonate (S2)) include the following compounds.
- Sulfonyl group-containing lithium salts are commercially available.
- compound (s1-1) is available as LiFSI (manufactured by Nippon Shokubai Co., Ltd.).
- the compound (s1-2) is available as LiTFSI (manufactured by Toyama Pharmaceutical Co., Ltd.).
- compound (s1-3) is available as LiBETI (manufactured by Iolitec).
- the compound (s1-5) is available as LiN(C4F9SO2)2 (manufactured by Mitsubishi Materials Electronic Chemicals Co., Ltd.).
- the compound (s2-2) is available as LiCF3SO3 (manufactured by Fujifilm Wako Pure Chemical Industries, Ltd.).
- the compound (s2-5) is available as LiC4F9SO3 (manufactured by Fujifilm Wako Pure Chemical Industries, Ltd.).
- the content of the sulfonyl group-containing lithium salt is not particularly limited as long as the total content of the sulfonyl group-containing lithium salt and lithium nitrate is within the range described below, and from the viewpoint of further improving discharge characteristics and cycle characteristics, preferably 0.1 mol/L or more and 1.0 mol/L or less, more preferably 0.2 mol/L or more and 0.9 mol/L or less, still more preferably 0.3 mol/L or more and 0.9 mol/L or less , Particularly preferably 0.4 mol / L or more and 0.8 mol / L or less, most preferably 0.4 mol / L or more and 0.6 mol / L or less, two or more sulfonyl group-containing lithium salts with different structures In that case, the total content thereof may be within the above range.
- the unit "mol/L" means the number of moles contained in 1 L of the total electrolyte solution.
- the content of lithium nitrate is not particularly limited as long as the total content of the sulfonyl group-containing lithium salt and lithium nitrate is within the range described later, and from the viewpoint of further improving discharge characteristics and cycle characteristics, it is preferably 0.1. mol/L or more and 1.0 mol/L or less, more preferably 0.2 mol/L or more and 0.9 mol/L or less, more preferably 0.3 mol/L or more and 0.9 mol/L or less, particularly preferably is 0.4 mol/L or more and 0.8 mol/L or less, most preferably 0.4 mol/L or more and 0.6 mol/L or less.
- the total content of the sulfonyl group-containing lithium salt and lithium nitrate is 0.8 mol/L or more and 2.0 mol/L or less, and from the viewpoint of further improving discharge characteristics and cycle characteristics, preferably 0.8 mol/L. 1.8 mol/L or less, more preferably 0.8 mol/L or more and 1.6 mol/L or less, still more preferably 0.9 mol/L or more and 1.2 mol/L or less. If the total content is too high, the electrical conductivity will decrease due to increased viscosity. If the total content is too small, a decrease in electrical conductivity and an increase in the amount of eluted polysulfides are observed. As a result, sufficient discharge characteristics are not obtained and/or sufficient cycle characteristics are not obtained.
- the sulfonyl group-containing lithium salt may contain two or more compounds having different structures, and in that case, the total content of those compounds and lithium nitrate content should be within the above range.
- the present invention does not prevent the electrolytic solution from containing electrolytes other than the sulfonyl group-containing lithium salt and lithium nitrate (hereinafter sometimes referred to as other electrolytes).
- the content of the other electrolyte is usually less than the smaller content of the respective contents of the sulfonyl group-containing lithium salt and lithium nitrate, for example 1 mol/L or less, particularly 0.5 mol/L or less. good too.
- the content of other electrolytes is preferably as low as possible, and is more preferably 0 mol/L.
- Solvent Solvents for the electrolytic solution in the present invention include linear ethers and fluorinated ethers. If the solvent does not contain one or both of the linear ether and the fluorinated ether, the discharge characteristics may not be obtained and/or the cycling characteristics may not be obtained.
- the linear ether may be any linear ether used as a glyme-based solvent in the field of secondary batteries.
- linear ethers include one or more compounds selected from the group consisting of linear ethers represented by the following general formula (G).
- the term "straight-chain ether" used in the present invention means that at least the site of the ethyleneoxy structural unit is unbranched (that is, does not have a branched structure). Therefore, R' and R'' in the following general formula (G) do not necessarily have a linear structure, and may have a branched structure.
- the linear ether used in the electrolytic solution in the present invention not only does not have a branched structure at the ethyleneoxy structural unit site, but also R′ and R′′ It is a glycol-based ether that does not have a branched structure.
- R′ and R′′ are each independently a hydrocarbon group having 1 to 10 carbon atoms, and from the viewpoint of further improving discharge characteristics and cycle characteristics, preferably the number of carbon atoms It is a hydrocarbon group of 1 or more and 5 or less, more preferably a hydrocarbon group of 1 or more and 3 or less carbon atoms.
- the hydrocarbon group is a monovalent hydrocarbon group and may be a saturated aliphatic hydrocarbon group, an unsaturated aliphatic hydrocarbon group or an aromatic hydrocarbon group, and From the viewpoint of further improving cycle characteristics, a saturated aliphatic hydrocarbon group (alkyl group) is preferred.
- R' and R'' include, for example, methyl, ethyl, propyl, butyl, pentyl, hexyl, heptyl, octyl, nonyl, and decyl groups. From the viewpoint of further improving discharge characteristics and cycle characteristics, R' and R'' preferably represent the same group.
- n is an integer of 1 or more and 10 or less, preferably an integer of 1 or more and 5 or less, more preferably 1 or more and 3 or less, and still more preferably 1, from the viewpoint of further improving discharge characteristics and cycle characteristics. is.
- linear ethers include ethylene glycol-based ethers, diethylene glycol-based ethers, triethylene glycol-based ethers, and tetraethylene glycol-based ethers. From the viewpoint of further improving discharge characteristics and cycle characteristics, ethylene glycol-based ethers (especially monoglyme), diethylene glycol-based ethers (especially diglyme), or mixtures thereof are preferred, and ethylene glycol-based ethers (especially monoglyme) are more preferred. .
- Ethylene glycol-based ethers include, for example, the following compounds: Ethylene glycol dimethyl ether (dimethoxyethane; monoglyme), ethylene glycol ethyl methyl ether, ethylene glycol methyl propyl ether, ethylene glycol butyl methyl ether, ethylene glycol methyl pentyl ether, ethylene glycol methylhexyl ether, ethylene glycol methylheptyl ether, ethylene glycol methyl octyl ether; ethylene glycol diethyl ether, ethylene glycol ethyl propyl ether, ethylene glycol butyl ethyl ether, ethylene glycol ethyl pentyl ether, ethylene glycol ethylhexyl ether, ethylene glycol ethylheptyl ether, ethylene glycol ethyl octyl ether; Ethylene glycol dipropyl
- Diethylene glycol-based ethers include, for example, the following compounds: diethylene glycol dimethyl ether (diglyme), diethylene glycol ethyl methyl ether, diethylene glycol methyl propyl ether, diethylene glycol butyl methyl ether, diethylene glycol methyl pentyl ether, diethylene glycol methylhexyl ether, diethylene glycol methyl heptyl ether, diethylene glycol methyl octyl ether; diethylene glycol diethyl ether, diethylene glycol ethyl propyl ether, diethylene glycol butyl ethyl ether, diethylene glycol ethyl pentyl ether, diethylene glycol ethylhexyl ether, diethylene glycol ethyl heptyl ether, diethylene glycol ethyl octyl ether; Diethylene glycol dipropyl ether, diethylene glycol butyl propyl
- Triethylene glycol-based ethers include, for example, the following compounds: Triethylene glycol dimethyl ether (triglyme), triethylene glycol ethyl methyl ether, triethylene glycol methyl propyl ether, triethylene glycol butyl methyl ether, triethylene glycol methyl pentyl ether, triethylene glycol methylhexyl ether, triethylene glycol methyl heptyl ether , triethylene glycol methyl octyl ether; triethylene glycol diethyl ether, triethylene glycol ethyl propyl ether, triethylene glycol butyl ethyl ether, triethylene glycol ethyl pentyl ether, triethylene glycol ethylhexyl ether, triethylene glycol ethyl heptyl ether, triethylene glycol ethyl octyl ether; Triethylene glycol dipropyl ether, triethylene glycol butyl propy
- tetraethylene glycol-based ethers include the following compounds: Tetraethylene glycol dimethyl ether (tetraglyme), tetraethylene glycol ethyl methyl ether, tetraethylene glycol methyl propyl ether, tetraethylene glycol butyl methyl ether, tetraethylene glycol methyl pentyl ether, tetraethylene glycol methylhexyl ether, tetraethylene glycol methylheptyl ether, tetraethylene glycol methyl octyl ether; tetraethylene glycol diethyl ether, tetraethylene glycol ethyl propyl ether, tetraethylene glycol butyl ethyl ether, tetraethylene glycol ethyl pentyl ether, tetraethylene glycol ethylhexyl ether, tetraethylene glycol ethyl heptyl ether
- Linear ethers are commercially available.
- dimethoxyethane (monoglyme) is available from Toyama Pharmaceutical Co., Ltd.
- diglyme is available as (manufactured by Toyama Pharmaceutical Co., Ltd.).
- triglyme is available as (manufactured by Toyama Pharmaceutical Co., Ltd.).
- tetraglyme is available as (manufactured by Toyama Pharmaceutical Co., Ltd.).
- the content of the straight-chain ether should be within the range described below with respect to the total amount of the straight-chain ether and the fluorinated ether.
- the straight-chain ether may contain two or more straight-chain ethers having different structures, and in that case, the total content thereof may be within the above range.
- Fluorinated ethers are linear or cyclic ether compounds containing fluorine atoms and ether linkages.
- the fluorinated ether is one or more compounds selected from the group consisting of linear ether compounds represented by the following general formula (E1) and cyclic ether compounds represented by the general formula (E2).
- the fluorinated ether is preferably a linear ether compound represented by the following general formula (E1) from the viewpoint of further improving discharge characteristics and cycle characteristics.
- the "straight-chain ether compound" referred to in the present invention means having a structure that can be represented by general (E1).
- R 11 , R 12 and R 13 in general formula (E1) below do not necessarily have a linear structure, and may have a branched structure.
- the fluorinated ether used in the electrolytic solution in the present invention not only has a structure represented by the following general formula (E1), but also R 11 , R 12 and R 13 are branched It is a fluorinated ether that does not have a split structure.
- R 11 and R 12 are a fluorine atom-containing monovalent hydrocarbon group having 1 to 10 carbon atoms, and from the viewpoint of further improving discharge characteristics and cycle characteristics, preferably carbon atoms It is a fluorine atom-containing monovalent hydrocarbon group having a number of 1 or more and 5 or less, more preferably a fluorine atom-containing monovalent hydrocarbon group having 1 or more and 3 or less carbon atoms.
- the fluorine atom-containing monovalent hydrocarbon group may be a saturated aliphatic monovalent hydrocarbon group, an unsaturated aliphatic monovalent hydrocarbon group or an aromatic monovalent hydrocarbon group.
- a saturated aliphatic monovalent hydrocarbon group (alkyl group) is preferred from the viewpoint of further improving properties and cycle properties.
- the number of fluorine atoms contained in the fluorine atom-containing monovalent hydrocarbon group is not particularly limited as long as at least part of the hydrogen atoms in the hydrocarbon group are substituted with halogen atoms.
- more than half of the total number of all hydrogen atoms and fluorine atoms possessed by the fluorine atom-containing monovalent hydrocarbon group is fluorine atoms from the viewpoint of further improving discharge characteristics and cycle characteristics. is preferred.
- R 11 and R 12 may represent the same group or different groups.
- the fluorine atom-containing monovalent hydrocarbon group is, in detail, a hydrocarbon group represented by the following general formula (F).
- A is a hydrogen atom or a fluorine atom, and is a hydrogen atom from the viewpoint of further improving discharge characteristics and cycle characteristics.
- r1 is an integer of 0 or more and 10 or less, preferably an integer of 1 or more and 10 or less, more preferably an integer of 1 or more and 5 or less, still more preferably 1 or more and 3 or less, from the viewpoint of further improving discharge characteristics and cycle characteristics. It is an integer, particularly preferably 1 or 2, most preferably 2.
- r2 is an integer of 0 or more and 10 or less, preferably an integer of 0 or more and 5 or less, more preferably an integer of 0 or more and 3 or less, still more preferably 0 or more and 2 or less, from the viewpoint of further improving discharge characteristics and cycle characteristics.
- r3 is an integer of 0 or more and 9 or less, preferably an integer of 0 or more and 5 or less, more preferably an integer of 0 or more and 3 or less, still more preferably 0 or more and 2 or less, from the viewpoint of further improving discharge characteristics and cycle characteristics. It is an integer, particularly preferably 0 or 1.
- r1+r2 is an integer of 1 or more and 10 or less, preferably an integer of 1 or more and 5 or less, more preferably an integer of 1 or more and 3 or less, more preferably 2 or 3, especially from the viewpoint of further improving discharge characteristics and cycle characteristics Two is preferred.
- r1+r2+r3 is an integer of 1 or more and 10 or less, preferably an integer of 1 or more and 6 or less, more preferably an integer of 1 or more and 5 or less, still more preferably 1 or more and 3 or less, from the viewpoint of further improving discharge characteristics and cycle characteristics. It is an integer, particularly preferably 2 or 3.
- the difluoroethylene unit for r1, the monofluoroethylene unit for r2, and the ethylene unit for r3 are arranged consecutively for each unit to form a block, but are not limited thereto, and are randomly may be placed). From the viewpoint of further improving discharge characteristics and cycle characteristics, it is preferable that these units are arranged consecutively for each unit in the order described in formula (F) to form a block.
- R 11 and R 12 when only one of R 11 and R 12 is a fluorine atom-containing monovalent hydrocarbon group, the other is a monovalent hydrocarbon group having 1 to 10 carbon atoms, and discharge characteristics and cycle characteristics is preferably a monovalent hydrocarbon group having 1 or more and 5 or less carbon atoms, and more preferably a monovalent hydrocarbon group having 1 or more and 3 or less carbon atoms.
- the monovalent hydrocarbon group may be a saturated aliphatic hydrocarbon group, an unsaturated aliphatic hydrocarbon group or an aromatic hydrocarbon group.
- a hydrogen group (alkyl group) is preferred.
- Examples of the monovalent hydrocarbon group include methyl group, ethyl group, propyl group, butyl group, pentyl group, hexyl group, heptyl group, octyl group, nonyl group and decyl group.
- R 13 is a divalent hydrocarbon group having 2 to 4 carbon atoms, preferably a divalent hydrocarbon group having 2 or 3 carbon atoms from the viewpoint of further improving discharge characteristics and cycle characteristics. group, more preferably a divalent hydrocarbon group having 2 carbon atoms.
- a divalent hydrocarbon group is a saturated aliphatic divalent hydrocarbon group, and examples thereof include an ethylene group, a propylene group, and a butylene group.
- p is an integer of 0 or 1. p is preferably 0 from the viewpoint of further improving discharge characteristics and cycle characteristics.
- Examples of such compounds represented by general formula (E1) (which may also be referred to as compound (E1) or linear ether compound (E1)) include the following general formulas (e1-1) to (e1-2) The compound represented by is mentioned.
- R 11 and R 12 are respectively the same as R 11 and R 12 in formula (E1). Therefore, the fluorine atom-containing monovalent hydrocarbon groups for R 11 and R 12 in formula (e1-1) are the same as the fluorine atom-containing monovalent hydrocarbon groups for R 11 and R 12 in formula (E1). Preferred R 11 and R 12 in formula (e1-1) are also the same as preferred R 11 and R 12 in formula (E1), respectively. Preferred fluorine atom-containing monovalent hydrocarbon groups for R 11 and R 12 in formula (e1-1) are also the same as preferred fluorine atom-containing monovalent hydrocarbon groups for R 11 and R 12 in formula (E1).
- Compound (e1-1) is commercially available or can be produced by a known method.
- compound (e1-1-1) is available from Manchester Organics.
- compound (e1-1-2) is available from Manchester Organics.
- compound (e1-1-3) is available from Manchester Organics.
- compound (e1-1-4) is available from Angene.
- R 11 , R 12 and R 13 are respectively the same as R 11 , R 12 and R 13 in formula (E1). Therefore, the fluorine atom-containing monovalent hydrocarbon groups for R 11 and R 12 in formula (e1-2) are the same as the fluorine atom-containing monovalent hydrocarbon groups for R 11 and R 12 in formula (E1).
- the divalent hydrocarbon group for R 13 in formula (e1-2) is also the same as the divalent hydrocarbon group for R 13 in formula (E1).
- Preferred R 11 , R 12 and R 13 in formula (e1-2) are also the same as preferred R 11 , R 12 and R 13 in formula (E1) respectively.
- Preferred fluorine atom-containing monovalent hydrocarbon groups for R 11 and R 12 in formula (e1-2) are also the same as preferred fluorine atom-containing monovalent hydrocarbon groups for R 11 and R 12 in formula (E1).
- Preferred divalent hydrocarbon groups for R 13 in formula (e1-2) are also the same as the preferred divalent hydrocarbon groups for R 13 in formula (E1).
- Compound (e1-2) is commercially available or can be produced by a known method.
- R 14 is a fluorine atom-containing monovalent hydrocarbon group having 1 to 10 carbon atoms, and is the same as R 11 and R 12 in formula (E1). Therefore, the fluorine atom-containing monovalent hydrocarbon group for R 14 in formula (E2) is the same as the fluorine atom-containing monovalent hydrocarbon group for R 11 and R 12 in formula (E1). Preferred R 14 in formula (E2) is also the same as preferred R 11 and R 12 in formula (E1). Preferred fluorine atom-containing monovalent hydrocarbon groups for R 14 in formula (E2) are also the same as preferred fluorine atom-containing monovalent hydrocarbon groups for R 11 and R 12 in formula (E1).
- Compound (e2-1) is commercially available or can be produced by a known method.
- compound (e2-1) is available from Manchester Organics.
- the viscosity of the fluorinated ether is not particularly limited, and may be, for example, 0.1 mPa or more and 3.0 mPa or less. and more preferably 1.0 mPa or more and 2.5 mPa or less.
- the dielectric constant of the fluorinated ether is not particularly limited. 10 or less.
- the boiling point of the fluorinated ether is not particularly limited. is 80° C. or higher and 110° C. or lower.
- the content of the fluorinated ether is not particularly limited, and from the viewpoint of further improving the discharge characteristics and cycle characteristics, it is preferably 20% by volume or more and 60% by volume or less with respect to the total amount of the linear ether and the fluorinated ether. More preferably 20% by volume or more and 55% by volume or less, still more preferably 40% by volume or more and 55% by volume or less, and particularly preferably 45% by volume or more and 55% by volume or less.
- the fluorinated ether may contain two or more fluorinated ethers having different structures, and in that case, the total content thereof may be within the above range.
- Straight-chain ethers and fluorinated ethers are contained in the electrolyte as main solvents.
- the total content of linear ethers and fluorinated ethers is usually 80% by volume or more with respect to the total amount of the electrolyte, preferably 90% by volume or more, more preferably 90% by volume or more, from the viewpoint of further improving discharge characteristics and cycle characteristics. is 98% by volume or more, more preferably 100% by volume.
- Each of the linear ether and the fluorinated ether may contain two or more types of ethers with different structures, and in that case, the total content thereof may be within the above range.
- the present invention does not prevent the electrolytic solution from containing a solvent other than the linear ether and the fluorinated ether (hereinafter sometimes referred to as another solvent).
- the content of the other solvent is usually less than the content of each of the straight-chain ethers, and from the viewpoint of further improving the discharge characteristics and cycle characteristics, the total amount of the electrolyte is preferably 20%. % by volume or less, more preferably 10% by volume or less, and even more preferably 2% by volume or less. From the viewpoint of further improving discharge characteristics and cycle characteristics, the content of other solvents is preferably as low as possible, and is more preferably 0% by volume.
- the electrolytic solution of the present invention may contain additives such as LiPF6, LiAsF6, LiBOB, LiDFOB, LiI, R-SH (thiol), P2S5, Li2Sn (lithium polysulfide).
- additives such as LiPF6, LiAsF6, LiBOB, LiDFOB, LiI, R-SH (thiol), P2S5, Li2Sn (lithium polysulfide).
- the content of the additive is not particularly limited, and may be, for example, 1 w/v% or less, particularly 0.5 w/v% or less. From the viewpoint of further improving discharge characteristics and cycle characteristics, the additive content is preferably as low as possible, and is more preferably 0 w/v %.
- the additive may contain two or more additives, and in that case, the total content thereof may be within the above range.
- the unit "w/v %" means the number of grams contained in 100 mL of the total electrolyte solution.
- the electrolytic solution is prepared by dissolving a sulfonyl group-containing lithium salt and lithium nitrate in a linear ether and then diluting it with a fluorinated ether to adjust the total content of the sulfonyl group-containing lithium salt and lithium nitrate to the above range. , can be manufactured. Even if an attempt is made to produce an electrolytic solution by adding and mixing a sulfonyl group-containing lithium salt and lithium nitrate to a fluorinated ether and then diluting the mixture with a linear ether, the electrolytic solution of the present invention cannot be obtained.
- the dilution ratio of the fluorinated ether may be such that the content of the fluorinated ether with respect to the total amount of the linear ether and the fluorinated ether in the electrolytic solution is within the above range.
- the dilution rate is preferably 20% or more and 60% or less, more preferably 20% or more and 55% or less, still more preferably 40% or more and 55% or less, and particularly preferably 45% or more and 55% or less.
- the dilution ratio refers to the ratio (particularly volume ratio) of the amount of the solvent used for dilution to the total amount of solvent after dilution.
- the ambient temperature during the production of the electrolytic solution is usually room temperature, and may be, for example, 5°C or higher and 30°C or lower.
- the ratio (EL/S ratio) of the electrolyte volume ( ⁇ L) to the sulfur weight (mg) of the positive electrode is preferably 1 or more and 15 or less from the viewpoint of further improving discharge characteristics and cycle characteristics. More preferably 1 or more and 12 or less, still more preferably 1 or more and 10 or less, and particularly preferably 2 or more and 10 or less. In the present invention, excellent discharge characteristics can be obtained even if the amount of electrolytic solution is reduced. From the viewpoint of further improving discharge characteristics, the EL/S ratio is preferably 1 or more and 10 or less, more preferably 2 or more and 8 or less (especially 2 or more and less than 8), more preferably 3 or more and 8 or less (especially 3 or more and less than 8).
- the EL/S ratio is preferably 5 or more and 15 or less, more preferably 8 or more and 12 or less, still more preferably 8 or more and 11 or less, and particularly preferably 9 or more and 11 or less, from the viewpoint of further improving cycle characteristics.
- the secondary battery of the present invention is a secondary battery in which lithium ions move between the positive electrode and the negative electrode through the electrolyte to charge and discharge the battery.
- the secondary battery of the present invention corresponds to a so-called “lithium ion secondary battery” because lithium ions are involved in charging and discharging.
- the positive electrode is preferably a sulfur electrode containing at least sulfur from the viewpoint of further improving discharge characteristics and cycle characteristics.
- S sulfur
- a “sulfur electrode” refers to an electrode comprising at least sulfur, for example comprising sulfur (S), such as S8 and/or polymeric sulfur, in particular such It refers to a positive sulfur cathode.
- a sulfur electrode is an electrode containing at least sulfur, and may additionally contain a conductive aid and/or a binder.
- the sulfur content in the sulfur electrode is 5% by weight or more and 95% by weight or less, preferably 50% by weight or more and 90% by weight or less, more preferably 50% by weight, based on the entire electrode (especially the positive electrode layer described later). % or more and 80% by weight.
- Examples of the conductive aid contained in the sulfur electrode used as the positive electrode include carbon materials such as graphite, carbon fiber, carbon black, and carbon nanotubes. can be used.
- carbon fiber for example, vapor growth carbon fiber (VGCF (registered trademark)) or the like can be used.
- VGCF vapor growth carbon fiber
- carbon black for example, acetylene black and/or ketjen black can be used.
- carbon nanotubes for example, multi-wall carbon nanotubes (MWCNT) such as single-wall carbon nanotubes (SWCNT) and/or double-wall carbon nanotubes (DWCNT) can be used.
- Materials other than carbon materials can be used as long as they have good conductivity.
- metal materials such as Ni powder, and/or conductive polymer materials can also be used.
- the conductive aid is preferably carbon black, more preferably ketjen black, from the viewpoint of further improving discharge characteristics and cycle characteristics.
- binder contained in the sulfur electrode used as the positive electrode examples include fluorine-based resins such as polyvinylidene fluoride (PVdF) and/or polytetrafluoroethylene (PTFE), polyvinyl alcohol (PVA)-based resins, and carboxymethyl cellulose (CMC). and/or polymeric resins such as styrene-butadiene copolymer rubber (SBR) based resins.
- a conductive polymer may be used as the binder. Examples of conductive polymers that can be used include substituted or unsubstituted polyaniline, polypyrrole, polythiophene, and (co)polymers composed of one or two selected from these. From the viewpoint of further improving discharge characteristics and cycle characteristics, the binder is preferably SBR, CMC or a mixture thereof, more preferably a mixture of SBR and CMC.
- a sulfur electrode usually includes a positive electrode layer (particularly a sulfur-containing positive electrode layer or a sulfur positive electrode layer) and a positive current collector (foil) on which the positive electrode layer is formed.
- the positive electrode layer is provided on at least one side of the positive electrode current collector.
- the positive electrode may have positive electrode layers on both sides of the positive electrode current collector, or may have a positive electrode layer on one side of the positive electrode current collector.
- a preferable positive electrode has a positive electrode layer on both sides of a positive electrode current collector from the viewpoint of further increasing the capacity of a secondary battery.
- the positive electrode layer of the sulfur electrode may contain other positive electrode active materials in addition to sulfur.
- the other positive electrode active material is not particularly limited as long as it contributes to the absorption and release of lithium ions.
- the other positive electrode active material may be lithium cobaltate (LCO), lithium nickelate, lithium manganate, lithium titanate, or a portion of these transition metals replaced by another metal.
- LCO lithium cobaltate
- Such other positive electrode active materials may be contained as a single species, they may be contained in combination of two or more species.
- a sulfur electrode is generally prepared by mixing sulfur and a binder (and optionally a conductive aid and/or other positive electrode active material) together, adding an organic solvent to prepare a slurry, and applying the slurry to a positive electrode collector by any coating method. It can be obtained by applying it on an electric body and drying it.
- the positive electrode current collector used for the positive electrode is a member that contributes to the collection and supply of electrons generated in the active material due to the battery reaction.
- a current collector may be a sheet metal member and may have a perforated or perforated morphology.
- the current collector may be metal foil, perforated metal, mesh or expanded metal, or the like.
- the positive electrode current collector used for the positive electrode is preferably made of metal foil containing at least one selected from the group consisting of aluminum, stainless steel, nickel and the like, and may be aluminum foil, for example.
- the negative electrode is not particularly limited, it is preferably a metallic lithium electrode from the viewpoint of further improving discharge characteristics and cycle characteristics.
- Metallic lithium is a substance that contributes to absorption and release of lithium ions.
- a “metallic lithium electrode” broadly refers to an electrode having metallic lithium (Li) as an active component (ie, negative electrode active material).
- metallic lithium electrode refers to an electrode comprising metallic lithium, for example an electrode comprising lithium metal or a lithium alloy, particularly such metallic lithium (e.g. metallic lithium alone). ).
- the metallic lithium electrode may contain a component other than lithium metal or a lithium alloy
- an electrode made of lithium metal for example, purity of 90% or more, preferably purity of 95% or more, more preferably is an electrode made of a simple substance of lithium metal with a purity of 98% or more.
- the negative electrode can be made of, for example, a plate-like material or a foil-like material, but is not limited to this, and can also be formed (shaped) using powder.
- the metallic lithium electrode may be used while being supported by a negative electrode current collector.
- a metallic lithium electrode may be formed on the negative electrode current collector.
- the negative electrode current collector the same current collector (or metal foil) as the positive electrode current collector can be used.
- the negative electrode current collector is preferably copper foil from the viewpoint of further improving discharge characteristics and cycle characteristics.
- the positive electrode and the negative electrode are alternately arranged via a separator, which will be described later.
- the positive electrode and the negative electrode, together with the later-described separator may have a planar laminated structure, a wound structure, or a stack-and-folded structure.
- the secondary battery may have a planar laminated structure in which a positive electrode, a negative electrode, and a separator disposed between the positive electrode and the negative electrode are laminated in a planar manner. It may have a winding structure in which the separator disposed between the negative electrode and the negative electrode is wound into a roll, or the positive electrode, the negative electrode, and the separator disposed between the positive electrode and the negative electrode are laminated and then folded. However, it may have a so-called stack-and-fold structure.
- a separator is a member that is provided from the viewpoint of preventing a short circuit due to contact between positive and negative electrodes and retaining an electrolytic solution.
- the separator is a member that allows ions to pass through while preventing electronic contact between the positive electrode and the negative electrode.
- the separator is a porous or microporous insulating member, which may have a membrane morphology due to its small thickness.
- the separator may be an inorganic separator or an organic separator.
- inorganic separators include glass filters and glass fibers.
- organic separators include synthetic resin porous membranes made of polytetrafluoroethylene, polypropylene and/or polyethylene, etc., and a structure in which two or more of these porous membranes are laminated. can.
- a polyolefin porous film is preferable because it has an excellent short-circuit prevention effect and can improve the safety of the battery due to the shutdown effect.
- the exterior body may be a flexible pouch (soft bag body) or a hard case (hard housing).
- the flexible pouch is usually formed from a laminate film, and the periphery is heat-sealed to form a sealed portion.
- the laminate film a film obtained by laminating a metal foil and a polymer film is generally used. Specifically, a three-layer structure composed of an outer layer polymer film/metal foil/inner layer polymer film is exemplified.
- the outer layer polymer film is intended to prevent permeation of moisture or the like and damage to the metal foil due to contact and the like, and polymers such as polyamide and polyester can be suitably used.
- the metal foil is for preventing the permeation of moisture and gas, and foils of copper, aluminum, stainless steel, etc. can be suitably used.
- the inner layer polymer film is for protecting the metal foil from the electrolyte to be accommodated inside and also for melting and sealing during heat sealing, and polyolefin or acid-modified polyolefin can be suitably used.
- the thickness of the laminate film is not particularly limited, and may be, for example, 1 ⁇ m or more and 1 mm or less.
- the hard case is usually made of a metal plate, and the peripheral edge is irradiated with a laser to form a seal.
- the metal plate metal materials such as aluminum, nickel, iron, copper, and stainless steel are generally used.
- the thickness of the metal plate is not particularly limited, and may be, for example, 1 ⁇ m or more and 1 mm or less.
- FIG. 1 A schematic cross-sectional view of a cylindrical secondary battery 100 is shown in FIG.
- an electrode structure 121 and a pair of insulating plates 112 and 113 are housed inside a substantially hollow cylindrical electrode structure housing member 111 .
- the electrode structure 121 can be produced, for example, by stacking a positive electrode 122 and a negative electrode 124 with a separator 126 interposed therebetween to obtain an electrode structure, and then winding the electrode structure.
- An electrode structure housing member (for example, a battery can) 111 has a hollow structure with one end closed and the other end open, and is made of iron (Fe) and/or aluminum (Al) or the like.
- a pair of insulating plates 112 and 113 are arranged so as to sandwich the electrode structure 121 and extend perpendicularly to the winding peripheral surface of the electrode structure 121 .
- a battery lid 114, a safety valve mechanism 115, and a thermal resistance element (for example, a PTC element, a positive temperature coefficient element) 116 are crimped to the open end of the electrode structure housing member 111 via a gasket 117.
- the electrode structure housing member 111 is hermetically sealed.
- the battery lid 114 is made of the same material as the electrode structure housing member 111, for example.
- Safety valve mechanism 115 and thermal resistance element 116 are provided inside battery lid 114 , and safety valve mechanism 115 is electrically connected to battery lid 114 via thermal resistance element 116 .
- the disk plate 115A is reversed when the internal pressure exceeds a certain level due to an internal short circuit and/or external heating. This disconnects the electrical connection between the battery lid 114 and the electrode structure 121 .
- the resistance of the thermal resistance element 116 increases as the temperature rises.
- Gasket 117 is made of, for example, an insulating material. The surface of the gasket 117 may be coated with asphalt or the like.
- a center pin 118 is inserted into the winding center of the electrode structure 121 .
- the center pin 118 does not have to be inserted in the winding center.
- a positive electrode lead portion 123 made of a conductive material such as aluminum is connected to the positive electrode 122 .
- the positive electrode lead portion 123 is attached to the positive electrode (eg, positive electrode current collector).
- a negative electrode lead portion 125 made of a conductive material such as copper is connected to the negative electrode 124 .
- the negative electrode lead portion 125 is attached to the negative electrode (eg, negative electrode current collector).
- the negative electrode lead portion 125 is welded to the electrode structure housing member 111 and electrically connected to the electrode structure housing member 111 .
- the positive electrode lead portion 123 is welded to the safety valve mechanism 115 and electrically connected to the battery lid 114 .
- the negative electrode lead portion 125 is provided at one position (the outermost peripheral portion of the wound electrode structure), but at two positions (the outermost peripheral portion and the outermost portion of the wound electrode structure). inner circumference).
- the electrode structure 121 is formed by stacking a positive electrode 122 and a negative electrode 124 with a separator 126 interposed therebetween.
- the positive electrode is composed of a positive electrode layer and a positive electrode current collector (foil)
- the positive electrode layer is not formed in the region of the positive electrode (for example, the positive electrode current collector) to which the positive electrode lead portion 123 is attached.
- the secondary battery 100 can be manufactured, for example, according to the following procedure.
- a sulfur electrode positive electrode
- a metallic lithium electrode negative electrode
- a positive electrode is obtained by forming sulfur-containing positive electrode layers on both sides of a positive electrode current collector.
- a metal lithium foil material is cut out to obtain a negative electrode.
- the positive electrode lead portion 123 is attached to the positive electrode current collector using a welding method or the like.
- the negative electrode lead portion 125 is attached to the negative electrode by using a welding method or the like.
- the positive electrode 122 and the negative electrode 124 are laminated with a separator 126 made of a microporous polyethylene film interposed therebetween, and wound (more specifically, an electrode structure of positive electrode 122/separator 126/negative electrode 124/separator 126).
- a protective tape (not shown) is attached to the outermost periphery. After that, the center pin 118 is inserted into the center of the electrode structure 121 .
- the electrode structure 121 is housed inside the electrode structure housing member 111 .
- the tip of the positive electrode lead portion 123 is attached to the safety valve mechanism 115 and the tip of the negative electrode lead portion 125 is attached to the electrode structure housing member 111 by welding or the like.
- the separator 126 is impregnated with the electrolytic solution by injecting the electrolytic solution based on the depressurization method.
- the battery lid 114 , the safety valve mechanism 115 and the thermal resistance element 116 are crimped to the open end of the electrode structure housing member 111 via the gasket 117 .
- FIG. 13 shows a schematic exploded perspective view of such a secondary battery.
- an electrode structure 221 basically similar to that described above is accommodated inside an exterior member 200 made of a laminate film.
- the electrode structure 221 can be produced by stacking a positive electrode and a negative electrode with a separator interposed therebetween and then winding the stacked structure.
- a positive electrode lead portion 223 is attached to the positive electrode, and a negative electrode lead portion 225 is attached to the negative electrode.
- the outermost periphery of the electrode structure 221 is protected with a protective tape.
- the positive electrode lead portion 223 and the negative electrode lead portion 225 protrude in the same direction from the inside of the exterior member 200 toward the outside.
- the positive electrode lead portion 223 is made of a conductive material such as aluminum.
- Anode lead 225 is formed from a conductive material such as copper, nickel, and/or stainless steel.
- the exterior member 200 is a sheet of film that can be folded in the direction of arrow R shown in FIG. ing.
- the exterior member 200 is, for example, a laminate film in which a fusion layer, a metal layer, and a surface protection layer are laminated in this order.
- the exterior member 200 may be formed by bonding two separate laminate films via an adhesive or the like.
- the fusing layer consists of a film such as polyethylene and/or polypropylene, for example.
- the metal layer is made of, for example, aluminum foil.
- the surface protective layer is made of, for example, nylon and/or polyethylene terephthalate.
- the exterior member 200 is preferably an aluminum laminate film in which a polyethylene film, an aluminum foil, and a nylon film are laminated in this order.
- the exterior member 200 may be a laminate film having another laminated structure, a polymer film such as polypropylene, or a metal film.
- it may consist of a moisture-resistant aluminum laminate film in which a nylon film, an aluminum foil, and an unstretched polypropylene film are laminated in this order from the outside.
- An adhesive film 201 is inserted between the exterior member 200 and the positive electrode lead portion 223 and between the exterior member 200 and the negative electrode lead portion 225 in order to prevent outside air from entering.
- the adhesive film 201 may be made of a material having adhesiveness to the positive electrode lead portion 223 and the negative electrode lead portion 225, such as polyolefin resin, and more specifically, polyethylene, polypropylene, modified polyethylene, modified polypropylene, or the like. of polyolefin resin.
- Example 1 Preparation of Electrolyte Solution LiTFSI was added to 1 mol/L and LiNO 3 was added to 1 mol/L to 1 L of dimethoxyethane (DME) and stirred to obtain a solution A.
- a slurry prepared by dispersing a composite of sulfur, ketjen black, and a binder (SBR (styrene-butadiene rubber) and CMC (carboxymethyl cellulose)) in a water-based solvent was prepared. It was applied to an Al foil and dried to obtain a positive electrode. The sulfur content in the positive electrode layer was 66% by weight.
- a Li metal foil (current collector foil is copper) was prepared as a negative electrode. The purity of Li in the Li metal foil was 99.9%.
- a polyethylene separator was prepared as a separator. A separator was placed between the positive electrode and the negative electrode to obtain a laminate. The laminate was housed in a laminate-type outer package, into which an electrolytic solution was injected.
- the opening was heat-sealed while the inside of the package was deaerated.
- the positive electrode and the separator were sufficiently impregnated with the electrolytic solution by hydrostatic impregnation.
- a laminate type cell was obtained by clamping the cell with a pressurizing jig. In the laminated cell, the ratio of the weight of the electrolyte to the weight of sulfur in the positive electrode (EL/S ratio) was 5.
- Example 1 A laminate type cell was obtained in the same manner as in Example 1, except that the solution A was used as the electrolytic solution without dilution.
- FIG. 2 shows the relationship between the initial discharge capacity and the dilution ratio.
- Standby time 2 hours
- Cutoff potential 2.8 to 1.85 V (CC discharge/CC/CV charge)
- Rest time 10 minutes (after each discharge/charge)
- Rate 0.2C (calculated with a discharge capacity of 1000mAh/g)
- Electrolyte volume: EL/S ratio 5 (EL/S ratio is the ratio of electrolyte volume [ ⁇ L] to sulfur weight [mg])
- the cell was pressurized with a jig at 5 cN ⁇ m.
- ⁇ Factor (1) The viscosity of the electrolytic solution decreases and the load characteristics improve, making it difficult to reach the cutoff potential, resulting in an increase in discharge capacity;
- - Factor (2) Electrolyte solution reaches the deeper part of the pores, increasing the utilization rate of the active material.
- the secondary battery according to the present invention can be used in various fields where battery use or power storage is assumed. Although merely an example, the secondary battery according to the present invention can be used in the electronics packaging field.
- the secondary battery according to one embodiment of the present invention is also used in the electric, information, and communication fields where mobile devices are used (for example, mobile phones, smartphones, laptops, digital cameras, activity meters, arm computers, electronic paper , wearable devices, RFID tags, card-type electronic money, small electronic devices such as smart watches, etc.), household and small industrial applications (for example, electric tools, golf carts, household and Nursing care and industrial robots), large industrial applications (e.g. forklifts, elevators, harbor cranes), transportation systems (e.g.
- hybrid vehicles electric vehicles, buses, trains, electrically assisted bicycles, electric motorcycles, etc.
- power system applications e.g., various power generation, load conditioners, smart grids, general household electrical storage systems, etc.
- medical applications medical equipment such as earphone hearing aids
- pharmaceutical applications medication management systems, etc.
- IoT field space and deep sea applications (for example, fields such as space probes and submersible research vessels).
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Abstract
Description
(1)電解液量を減らした場合、初回放電時から放電容量がより十分に得られないという問題が生じていた。
(2)充放電の繰り返しにより放電容量が低下し、より十分なサイクル特性が得られなかった。
電解質および溶媒を含む、二次電池のための電解液であって、
前記電解質はスルホニル基含有リチウム塩および硝酸リチウムを含み、
前記スルホニル基含有リチウム塩および前記硝酸リチウムの合計含有量は0.8モル/L以上2.0モル/L以下であり、
前記溶媒は直鎖エーテルおよびフッ素化エーテルを含む、電解液に関する。
本発明の電解液を備えた二次電池はまた、サイクル特性により十分に優れている。
本発明は二次電池を提供する。本明細書中、「二次電池」という用語は充電および放電の繰り返しが可能な電池のことを指している。「二次電池」は、その名称に過度に拘泥されるものではなく、例えば、「蓄電デバイス」などの電気化学デバイスも包含し得る。
電解液は非水系電解液である。非水系電解液とは、電解質イオンが移動する媒体が水を含まない電解液、すなわち媒体として有機溶媒のみを用いた電解液という意味である。
本発明において電解液の電解質はスルホニル基含有リチウム塩および硝酸リチウムを含む。電解質がスルホニル基含有リチウム塩または硝酸リチウムの一方または両方を含まない場合、十分な放電特性が得られなかったり、かつ/または十分なサイクル特性が得られなかったりする。直鎖エーテルに溶解させるには解離度の大きいLiTFSIなどのスルホニル基含有リチウム塩が必要であり、硝酸リチウムがないとレドックスシャトルが生じてしまう。電解質は電解液中、溶媒に溶解されているため、電解液は溶液の形態を有する。溶液とは、常温(例えば25℃)において、電解液が目視で透明性を有する程度に、電解質が溶媒中、分子レベルで均一に分散されている状態または形態をいう。
サイクル特性とは、充放電の繰り返しにより放電容量が十分に維持される特性のことである。
例えば、化合物(s1-1)はLiFSI(日本触媒社製)として入手可能である。
また例えば、化合物(s1-2)はLiTFSI(富山薬品工業製社製)として入手可能である。
また例えば、化合物(s1-3)はLiBETI(Iolitec社製)として入手可能である。
また例えば、化合物(s1-5)はLiN(C4F9SO2)2(三菱マテリアル電子化成社製)として入手可能である。
また例えば、化合物(s2-2)はLiCF3SO3(富士フィルム和光純薬社製)として入手可能である。
また例えば、化合物(s2-5)はLiC4F9SO3(富士フィルム和光純薬社製)として入手可能である。
本発明において電解液の溶媒は直鎖エーテルおよびフッ素化エーテルを含む。溶媒が直鎖エーテルまたはフッ素化エーテルの一方または両方を含まない場合、十分な放電特性が得られなかったり、かつ/または十分なサイクル特性が得られなかったりする。
エチレングリコールジメチルエーテル(ジメトキシエタン;モノグリム)、エチレングリコールエチルメチルエーテル、エチレングリコールメチルプロピルエーテル、エチレングリコールブチルメチルエーテル、エチレングリコールメチルペンチルエーテル、エチレングリコールメチルヘキシルエーテル、エチレングリコールメチルヘプチルエーテル、エチレングリコールメチルオクチルエーテル;
エチレングリコールジエチルエーテル、エチレングリコールエチルプロピルエーテル、エチレングリコールブチルエチルエーテル、エチレングリコールエチルペンチルエーテル、エチレングリコールエチルヘキシルエーテル、エチレングリコールエチルヘプチルエーテル、エチレングリコールエチルオクチルエーテル;
エチレングリコールジプロピルエーテル、エチレングリコールブチルプロピルエーテル、エチレングリコールプロピルペンチルエーテル、エチレングリコールプロピルヘキシルエーテル、エチレングリコールプロピルヘプチルエーテル、エチレングリコールプロピルオクチルエーテル。
ジエチレングリコールジメチルエーテル(ジグリム)、ジエチレングリコールエチルメチルエーテル、ジエチレングリコールメチルプロピルエーテル、ジエチレングリコールブチルメチルエーテル、ジエチレングリコールメチルペンチルエーテル、ジエチレングリコールメチルヘキシルエーテル、ジエチレングリコールメチルへプチルエーテル、ジエチレングリコールメチルオクチルエーテル;
ジエチレングリコールジエチルエーテル、ジエチレングリコールエチルプロピルエーテル、ジエチレングリコールブチルエチルエーテル、ジエチレングリコールエチルペンチルエーテル、ジエチレングリコールエチルヘキシルエーテル、ジエチレングリコールエチルへプチルエーテル、ジエチレングリコールエチルオクチルエーテル;
ジエチレングリコールジプロピルエーテル、ジエチレングリコールブチルプロピルエーテル、ジエチレングリコールプロピルペンチルエーテル、ジエチレングリコールプロピルヘキシルエーテル、ジエチレングリコールプロピルへプチルエーテル、ジエチレングリコールプロピルオクチルエーテル。
トリエチレングリコールジメチルエーテル(トリグリム)、トリエチレングリコールエチルメチルエーテル、トリエチレングリコールメチルプロピルエーテル、トリエチレングリコールブチルメチルエーテル、トリエチレングリコールメチルペンチルエーテル、トリエチレングリコールメチルヘキシルエーテル、トリエチレングリコールメチルへプチルエーテル、トリエチレングリコールメチルオクチルエーテル;
トリエチレングリコールジエチルエーテル、トリエチレングリコールエチルプロピルエーテル、トリエチレングリコールブチルエチルエーテル、トリエチレングリコールエチルペンチルエーテル、トリエチレングリコールエチルヘキシルエーテル、トリエチレングリコールエチルへプチルエーテル、トリエチレングリコールエチルオクチルエーテル;
トリエチレングリコールジプロピルエーテル、トリエチレングリコールブチルプロピルエーテル、トリエチレングリコールプロピルペンチルエーテル、トリエチレングリコールプロピルヘキシルエーテル、トリエチレングリコールプロピルへプチルエーテル、トリエチレングリコールプロピルオクチルエーテル。
テトラエチレングリコールジメチルエーテル(テトラグリム)、テトラエチレングリコールエチルメチルエーテル、テトラエチレングリコールメチルプロピルエーテル、テトラエチレングリコールブチルメチルエーテル、テトラエチレングリコールメチルペンチルエーテル、テトラエチレングリコールメチルヘキシルエーテル、テトラエチレングリコールメチルへプチルエーテル、テトラエチレングリコールメチルオクチルエーテル;
テトラエチレングリコールジエチルエーテル、テトラエチレングリコールエチルプロピルエーテル、テトラエチレングリコールブチルエチルエーテル、テトラエチレングリコールエチルペンチルエーテル、テトラエチレングリコールエチルヘキシルエーテル、テトラエチレングリコールエチルへプチルエーテル、テトラエチレングリコールエチルオクチルエーテル;
テトラエチレングリコールジプロピルエーテル、テトラエチレングリコールブチルプロピルエーテル、テトラエチレングリコールプロピルペンチルエーテル、テトラエチレングリコールプロピルヘキシルエーテル、テトラエチレングリコールプロピルへプチルエーテル、テトラエチレングリコールプロピルオクチルエーテル。
例えば、ジメトキシエタン(モノグリム)は富山薬品工業社製として入手可能である。
また例えば、ジグリムは(富山薬品工業社製)として入手可能である。
また例えば、トリグリムは(富山薬品工業社製)として入手可能である。
また例えば、テトラグリムは(富山薬品工業社製)として入手可能である。
r1は0以上10以下の整数であり、放電特性およびサイクル特性のさらなる向上の観点から、好ましくは1以上10以下の整数、より好ましくは1以上5以下の整数、さらに好ましくは1以上3以下の整数、特に好ましくは1または2、最も好ましくは2である。
r2は0以上10以下の整数であり、放電特性およびサイクル特性のさらなる向上の観点から、好ましくは0以上5以下の整数、より好ましくは0以上3以下の整数、さらに好ましくは0以上2以下の整数、特に好ましくは0または1、最も好ましくは0である。
r3は0以上9以下の整数であり、放電特性およびサイクル特性のさらなる向上の観点から、好ましくは0以上5以下の整数、より好ましくは0以上3以下の整数、さらに好ましくは0以上2以下の整数、特に好ましくは0または1である。
r1+r2は1以上10以下の整数であり、放電特性およびサイクル特性のさらなる向上の観点から、好ましくは1以上5以下の整数、より好ましくは1以上3以下の整数、さらに好ましくは2または3、特に好ましくは2である。
r1+r2+r3は1以上10以下の整数であり、放電特性およびサイクル特性のさらなる向上の観点から、好ましくは1以上6以下の整数、より好ましくは1以上5以下の整数、さらに好ましくは1以上3以下の整数、特に好ましくは2または3である。
式(F)において、r1に関するジフルオロエチレンユニット、r2に関するモノフルオロエチレンユニットおよびr3に関するエチレンユニットは、各ユニットごとに連続して配置されブロックを形成しているが、これに限定されず、ランダムに配置されてもよい)。これらのユニットは、放電特性およびサイクル特性のさらなる向上の観点から、式(F)に記載の順序で、各ユニットごとに連続して配置されブロックを形成していることが好ましい。
式(e1-1)における好ましいR11およびR12もまた、それぞれ、式(E1)における好ましいR11およびR12と同様である。式(e1-1)におけるR11およびR12に関する好ましいフッ素原子含有1価炭化水素基もまた、式(E1)におけるR11およびR12に関する好ましいフッ素原子含有1価炭化水素基と同様である。
例えば、化合物(e1-1-1)はManchester Organics社製として入手可能である。
また例えば、化合物(e1-1-2)はManchester Organics社製として入手可能である。
また例えば、化合物(e1-1-3)はManchester Organics社製として入手可能である。
また例えば、化合物(e1-1-4)はAngene社製として入手可能である。
式(e1-2)における好ましいR11 、R12およびR13もまた、それぞれ、式(E1)における好ましいR11 、R12およびR13と同様である。式(e1-2)におけるR11およびR12に関する好ましいフッ素原子含有1価炭化水素基もまた、式(E1)におけるR11およびR12に関する好ましいフッ素原子含有1価炭化水素基と同様である。式(e1-2)におけるR13に関する好ましい2価炭化水素基もまた、式(E1)におけるR13に関する好ましい2価炭化水素基と同様である。
式(E2)における好ましいR14もまた、式(E1)における好ましいR11およびR12と同様である。式(E2)におけるR14に関する好ましいフッ素原子含有1価炭化水素基もまた、式(E1)におけるR11およびR12に関する好ましいフッ素原子含有1価炭化水素基と同様である。
例えば、化合物(e2-1)はManchester Organics社製として入手可能である。
本発明の電解液は、LiPF6,LiAsF6,LiBOB,LiDFOB,LiI,R-SH(チオール),P2S5,Li2Sn(多硫化リチウム)等の添加剤を含んでもよい。
電解液は、スルホニル基含有リチウム塩および硝酸リチウムを直鎖エーテルに溶解した後、フッ素化エーテルで希釈して、スルホニル基含有リチウム塩および硝酸リチウムの合計含有量を上記した範囲に調整することにより、製造することができる。
スルホニル基含有リチウム塩および硝酸リチウムをフッ素化エーテルに添加および混合した後、直鎖エーテルで希釈して、電解液を製造しようとしても、本発明の電解液は得られない。スルホニル基含有リチウム塩および硝酸リチウムは溶解しないためである。
スルホニル基含有リチウム塩および硝酸リチウムを、直鎖エーテルおよびフッ素化エーテルの混合溶媒に添加および混合して、電解液を製造しようとしても、本発明の電解液は得られない。やはり、スルホニル基含有リチウム塩および硝酸リチウムは溶解しないためである。
本明細書中、希釈率は、溶媒について、希釈後の全溶媒量に対する、希釈に用いた溶媒の添加量の割合(特に体積割合)のことである。
本発明においては、電解液量を減らしても、優れた放電特性が得られる。EL/S比は、放電特性のさらなる向上の観点から、好ましくは1以上10以下、より好ましくは2以上8以下(特に2以上8未満)、より好ましくは3以上8以下(特に3以上8未満)、さらに好ましくは4以上6以下である。
EL/S比は、サイクル特性のさらなる向上の観点から、好ましくは5以上15以下、より好ましくは8以上12以下、さらに好ましくは8以上11以下、特に好ましくは9以上11以下である。
正極および負極はリチウムイオンを吸蔵放出可能な電極である。従って、本発明の二次電池は、電解液を介してリチウムイオンが正極と負極との間で移動して電池の充放電が行われる二次電池である。本発明の二次電池は、充放電にリチウムイオンが関与するため、いわゆる“リチウムイオン二次電池”に相当する。
セパレータは、正負極の接触による短絡防止および電解液保持などの観点から設けられる部材である。換言すれば、セパレータは、正極と負極との間の電子的接触を防止しつつイオンを通過させる部材であるといえる。好ましくは、セパレータは多孔性または微多孔性の絶縁性部材であり、その小さい厚みに起因して膜形態を有していてもよい。
外装体はフレキシブルパウチ(軟質袋体)であってもよいし、またはハードケース(硬質筐体)であってもよい。
外装体がフレキシブルパウチである場合、フレキシブルパウチは通常、ラミネートフィルムから形成され、周縁部をヒートシールすることにより、シール部を形成する。ラミネートフィルムとしては、金属箔とポリマーフィルムを積層したフィルムが一般的であり、具体的には、外層ポリマーフィルム/金属箔/内層ポリマーフィルムから成る3層構成のものが例示される。外層ポリマーフィルムは水分等の透過および接触等による金属箔の損傷を防止するためのものであり、ポリアミドおよびポリエステル等のポリマーが好適に使用できる。金属箔は水分およびガスの透過を防止するためのものであり、銅、アルミニウム、ステンレス等の箔が好適に使用できる。内層ポリマーフィルムは、内部に収納する電解質から金属箔を保護するとともに、ヒートシール時に溶融封口させるためのものであり、ポリオレフィンまたは酸変性ポリオレフィンが好適に使用できる。ラミネートフィルムの厚さは特に限定されず、例えば、1μm以上1mm以下であってもよい。外装体がフレキシブルパウチである場合、平面視における二次電池の周縁部でヒートシールされている。
以下、円筒型の二次電池および平板型のラミネートフィルム型の二次電池の具体例について説明する。
以下の試薬を用いた。
・LiTFSI(リチウムビストリフルオロメタンスルホニルイミド):富山薬品工業製
・硝酸リチウム(LiNO3):関東化学製
・ジメトキシエタン(DME):富山薬品工業製
・ハイドロフルオロエーテル(HFE):ダイキン工業製(前記化合物(e1-1-2)に対応する)(粘度1.6mPa、誘電率6.4、沸点92°)
・電解液の調製
ジメトキシエタン(DME)1Lに対し、LiTFSIを1mol/Lとなるように、かつLiNO3を1mol/Lとなるように、添加および撹拌し、溶液Aを得た。
溶液Aを、溶液A:HFE=3:1(体積比)になるように、HFEで希釈し、電解液を得た(希釈率25%)。
硫黄、ケッチェンブラック、およびバインダ(SBR(スチレンブタジェンラバー)とCMC(カルボキシメチルセルロース))の複合体を、水を主成分とした溶媒中に分散させて作製したスラリーをAl箔に塗布および乾燥し、正極を得た。正極層において、硫黄の含有量は66重量%であった。
負極としてLi金属箔(集電箔は銅)を準備した。Li金属箔におけるLiの純度は99.9%であった。
セパレータとしてポリエチレンセパレータを準備した。
正極と負極との間にセパレータを配置し積層体を得た。積層体をラミネート型外装体に収容し、その中に電解液を注入した。外装体内部を脱気しつつ開口部をヒートシールした。静水圧含浸により、正極およびセパレータに電解液を十分に含浸させた。加圧用治具でセルを挟持して、ラミネート型セルを得た。ラミネート型セルにおいて、電解液の重量の、正極の硫黄重量に対する比率(EL/S比)は5であった。
溶液Aを、溶液A:HFE=1:1(体積比)になるように、HFEで希釈した(希釈率50%)こと以外、実施例1と同様の方法により、電解液およびラミネート型セルを得た。
希釈することなく、溶液Aをそのまま電解液として用いたこと以外、実施例1と同様の方法により、ラミネート型セルを得た。
以下の条件により、充放電を行い、初回充放電曲線を作成し、図1に示した。初回放電容量と希釈率との関係を図2に示した。
待機時間:2時間
カットオフ電位:2.8~1.85 V(CC放電・CC/CV充電)
休止時間:10分(各放電・充電後)
レート:0.2C(放電容量を1000mAh/gとして計算)
電解液量:EL/S比=5(EL/S比とは硫黄重量[mg]に対する電解液量[μL]の比)
セルは5cN・mで冶具で加圧した。
希釈によって放電容量が増加する要因として以下の要因(1)および/または(2)が考えられる:
・要因(1):電解液の粘度が下がり、負荷特性が向上するため、カットオフ電位に到達しにくくなり結果的に放電容量が増加する;
・要因(2):電解液が細孔のより深部に到達し、活物質の利用率が増加する。
実施例1または比較例1の電解液を用いたセルについて、充放電を20回繰り返し、放電容量の推移を図3に示した。実施例1または比較例1の電解液を用いたセルはそれぞれ、EL/S比を10とすること以外、実施例1または比較例1と同様の方法により得られたラミネート型セルである。
希釈によって放電容量維持率が向上していることが分かった。
Claims (16)
- 電解質および溶媒を含み、
前記電解質はスルホニル基含有リチウム塩および硝酸リチウムを含み、
前記スルホニル基含有リチウム塩および前記硝酸リチウムの合計含有量は0.8モル/L以上2.0モル/L以下であり、
前記溶媒は直鎖エーテルおよびフッ素化エーテルを含む、二次電池のための電解液。 - 前記フッ素化エーテルは、フッ素原子およびエーテル結合を含有する、直鎖状または環状エーテル化合物である、請求項1に記載の電解液。
- 前記フッ素化エーテルは、下記一般式(E1)で表される直鎖状エーテル化合物および一般式(E2)で表される環状エーテル化合物からなる群から選択される1種以上の化合物である、請求項1または2に記載の電解液:
R13は炭素原子数2以上4以下の2価炭化水素基である;
pは0または1の整数である)
- 前記フッ素化エーテルの含有量は、前記直鎖エーテルおよび前記フッ素化エーテルの合計量に対して20体積%以上60体積%以下である、請求項1~4のいずれかに記載の電解液。
- 前記スルホニル基含有リチウム塩の含有量は0.1モル/L以上1.0モル/L以下である、請求項1~7のいずれかに記載の電解液。
- 前記硝酸リチウムの含有量は0.1モル/L以上1.0モル/L以下である、請求項1~8のいずれかに記載の電解液。
- 前記二次電池は正極として硫黄を含む硫黄電極を備えている、請求項1~9のいずれかに記載の電解液。
- 前記二次電池において、前記電解液の重量の、前記正極の硫黄重量に対する比率(EL/S比)が1以上10以下である、請求項10に記載の電解液。
- 前記二次電池は負極として金属リチウム電極を備えている、請求項1~11のいずれかに記載の電解液。
- 前記二次電池はリチウムイオン二次電池である、請求項1~12のいずれかに記載の電解液。
- スルホニル基含有リチウム塩および硝酸リチウムを直鎖エーテルに溶解した後、フッ素化エーテルで希釈して、前記スルホニル基含有リチウム塩および前記硝酸リチウムの合計含有量を0.8モル/L以上2.0モル/L以下に調整する、二次電池のための電解液の製造方法。
- 請求項1~13のいずれかに記載の電解液を製造する、請求項14に記載の電解液の製造方法。
- 請求項1~13のいずれかに記載の電解液を備えた、二次電池。
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