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A solid battery capacitor

A solid-state battery and capacitor technology, applied in electrolytic capacitors, capacitors, hybrid capacitors, etc., can solve the problems of low Coulomb efficiency, poor safety performance, easy fire and explosion, etc., and achieve the effects of improving energy density, ensuring safety performance, and avoiding damage

Active Publication Date: 2019-12-03
QINGDAO INST OF BIOENERGY & BIOPROCESS TECH CHINESE ACADEMY OF SCI
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] In principle, the conventional battery capacitor adopts the negative electrode through electrochemical intercalation of Li + , the positive electrode uses physical adsorption PF 6 - The electrolyte is a liquid organic system, the working voltage is 3.8V, the energy density is 10~20Wh / kg, and the power density is 3000~5000W / kg. Another battery capacitor relies on the negative electrode to physically adsorb Li + Cations and cathodes are electrochemically intercalated into PF 6 - For energy storage, the electrolytes of the above two battery capacitors all use liquid organic electrolytes, the embedded active materials are graphite materials, and the adsorption material is porous carbon. The disadvantage of using organic electrolytes is that their safety performance is poor, and it is easy to use them under abuse conditions. Fire and explosion; one pole uses physical adsorption charge to store energy, which makes the leakage current large; in addition, for the latter battery capacitor, in the liquid electrolyte system, PF 6 - During the repeated embedding / extraction process, the surface of the active material will continue to peel off, the interface will be destroyed, and irreversible reactions will occur repeatedly, so that the irreversible capacity will continue to be generated, and the first charge and discharge efficiency and the Coulombic efficiency during the long-term cycle process will be low.

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0019] 0.6 polyvinylidene fluoride, 0.4 g polyvinyl acetate powder and a certain mass of lithium salt LiPF 6 Dissolve in 25ml of acetone to form a solution, apply this solution on the PTFE plate substrate by scraping method, volatilize the solvent acetone at room temperature to form a film with a thickness of 30μm, dry it in vacuum at 60°C for 12h, and remove the remaining acetone Completely eliminate. Punch into a circular diaphragm with a diameter of 18mm, and set aside.

[0020] The active material graphitized mesophase carbon microspheres, the binder acrylonitrile multi-polymer, and the conductive carbon black are fully stirred and mixed into a slurry according to the mass ratio of 90:5:5, and coated on the aluminum foil and copper foil current collectors respectively. After vacuum baking at 120°C for 24 hours, it was punched into circular electrodes with a diameter of 14 mm. Assemble the negative electrode sheet and the solid electrolyte obtained above into a button bat...

Embodiment 2

[0022] In Example 1, the weights of polyvinylidene fluoride and polyvinyl acetate were changed to 0.4g and 0.6g respectively, and the assembled button battery capacitor was used at 0.5 C. The efficiency reached 92.5% for the first time, and after 5000 cycles at 2C, The capacity retention rate reaches 96.7%, the coulombic efficiency in the cycle process is 99.96%, the energy density based on the active material is 119.6Wh / kg, and the power density can reach 3450W / kg.

Embodiment 3

[0024] In Example 1, the weights of polyvinylidene fluoride and polyvinyl acetate were changed to 0.8g and 0.2g respectively, and the assembled button battery capacitor was used at 0.5 C for the first time. The efficiency reached 90.3%, and after 5000 cycles at 2C, The capacity retention rate reaches 93.7%, the coulombic efficiency in the cycle process is 99.93%, the energy density based on the active material is 119.4Wh / kg, and the power density can reach 3425W / kg.

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Abstract

The invention discloses a solid-state battery capacitor which comprises a positive electrode, a negative electrode and a solid electrolyte and is characterized in that the solid electrolyte is a lithium salt, polyvinylidene fluoride and polyvinyl acetate composite film, both the positive and negative electrode active materials are graphite material, and the negative graphite material is pre-lithiated. According to the solid-state battery capacitor of the present invention, a good solid solution can be formed with the positive electrode and the negative electrode during a charge-discharge cycle, a stable interfacial effect can be generated, the first-time charge-discharge efficiency and the Coulomb efficiency in the circulation process are greatly improved, the impedance is reduced, the pre-lithitic graphite electrode is adopted by the negative electrode, the loss of lithium salt during a charge and discharge process can be significantly reduced, the cycle life is greatly increased, andthe leakage current is reduced at the same time. The working voltage of the solid-state battery capacitor can reach 5.35V, and the energy density is greatly increased. In addition, the solid electrolyte is used, and the safety performance is ensured.

Description

technical field [0001] The invention belongs to the field of power / energy storage batteries, in particular to a solid-state battery capacitor. Background technique [0002] The increasing energy crisis and environmental problems have accelerated the rapid development of the new energy industry. Under the current situation, the environment-friendly electrochemical energy storage technology that maximizes green energy supply and low-carbon energy conservation and emission reduction has attracted more and more attention. Recently, the state has proposed to establish a near-zero carbon emission project based on the Energy Internet, the core content of which includes renewable energy power generation, distributed energy storage technology, etc., which puts forward higher requirements for new and efficient energy storage technologies. In addition, new energy Electrochemical energy storage devices with high energy density and high power density are also required in fields such as ...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H01G11/06H01G11/56H01G11/50H01G11/32
CPCH01G11/06H01G11/32H01G11/50H01G11/56Y02E60/13
Inventor 崔光磊韩鹏献韩晓琪刘天孟
Owner QINGDAO INST OF BIOENERGY & BIOPROCESS TECH CHINESE ACADEMY OF SCI
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