Non-acid system liquid-phase synthesis C/metal solid solution/Ba<2+>, Ce<4+> doped BiF3 positive electrode and preparation method

A liquid phase synthesis and solid solution technology, applied in battery electrodes, electrical components, circuits, etc., can solve the problems of charge and discharge capacity, charge and discharge capacity retention of discharge potential, complex mechanism of action, high polarization voltage, etc., to achieve Excellent electrochemical performance, reduced kinetic hindrance, and improved capacity

Inactive Publication Date: 2017-07-14
宁波吉电鑫新材料科技有限公司
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  • Claims
  • Application Information

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Problems solved by technology

The conventional synthesis method of bismuth fluoride is to react with hydrogen fluoride gas and metal oxide / hydroxide or fluorine gas and metal element at high temperature. The process conditions are harsh, the equipment requirements are very high, and the energy consumption is high, so the price is very expensive.
However, the preparation of bismuth fluoride by liquid phase reaction is often unable to be used as a positive electrode material because the content of by-products is too high. At the same time, the dilute nitric acid added to inhibit the hydrolysis of bismuth nitrate in water has the risk of producing highly toxic hydrogen fluoride by reacting with ammonium fluoride.
Bismuth fluoride, as a cathode material for lithium-ion secondary batteries, also has a negative characteristic that its electronic conductivity is extremely low, so it will cause a high polarization voltage during charge and discharge.
Although some researchers have used carbon black mixed with ball milling to increase the electrical conductivity of the material, it is still difficult for granular carbon black to form a complete conductive link, which greatly improves its electronic conductivity.
Finally, the material produces a new phase of metal bismuth and lithium fluoride during discharge, and the small particles of the new phase are kinetically disadvantaged in the initial stage of formation, so the maintenance of the subsequent charge and discharge capacity, discharge potential, and charge and discharge capacity ability to adversely affect
Ion doping is also an effective way to adjust the microstructure of the lattice and change the electron and ion transport characteristics of the lattice. However, the mechanism of ion doping or even multi-ion synergistic doping on the matrix is ​​very complicated, and the effect is often difficult. expected

Method used

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  • Non-acid system liquid-phase synthesis C/metal solid solution/Ba&lt;2+&gt;, Ce&lt;4+&gt; doped BiF3 positive electrode and preparation method

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0013]Embodiment 1: be that 1:3 total mass is five hydrated bismuth nitrate and ammonium fluoride of 1Kg with the amount of substance, the amount of substance is the barium nitrate of the amount of five hydrated bismuth nitrate substance 0.5%, the amount of substance is pentahydrate The amount of bismuth nitrate substance 0.5% cerium ammonium nitrate is put into the reactor, and this reactor is the cylindrical container of stainless steel material, and the ratio of the height of container and diameter is 2: 1, and the volume of container and bismuth nitrate pentahydrate and fluorine The ratio of the sum of ammonium chloride mass is 2L / Kg. Five circular fluid inlets are arranged on the top of the container, and their centers are respectively distributed at the center of the circular top of the container and the midpoints of four radii that form an angle of 90° with each other, and its diameter is 18% of the container diameter. Vibrate the reactor up and down, the amplitude of v...

Embodiment 2

[0014] Embodiment 2: be that 1: 3 total mass is five hydrated bismuth nitrate and ammonium fluoride of 2Kg, the amount of substance is the barium nitrate of the amount of pentahydrate bismuth nitrate substance 2%, the amount of substance is pentahydrate The amount of bismuth nitrate substance 2% cerium ammonium nitrate is put into the reactor, and this reactor is the cylindrical container of stainless steel material, and the ratio of the height of container and diameter is 2.2: 1, and the volume of container and bismuth nitrate pentahydrate and fluorine The ratio of the sum of ammonium chloride mass is 3L / Kg. 5 circular fluid inlets are arranged on the top of the container, and their centers are respectively distributed at the center of the circular top of the container and the midpoints of four radii that form an angle of 90° with each other, and its diameter is 19% of the container diameter. Vibrate this reactor up and down, the amplitude of vibration is 7 centimeters, and t...

Embodiment 3

[0015] Embodiment 3: be that 1: 3 total mass is bismuth nitrate pentahydrate and ammonium fluoride of 3Kg with the amount of substance, the amount of substance is the barium nitrate of the amount of bismuth nitrate pentahydrate substance 3%, the amount of substance is pentahydrate The amount of bismuth nitrate substance 3% cerium ammonium nitrate is put into the reactor, and this reactor is the cylindrical container of stainless steel material, and the ratio of the height of container and diameter is 2.5: 1, and the volume of container and bismuth nitrate pentahydrate and fluorine The ratio of the sum of ammonium chloride mass is 5L / Kg. 5 circular fluid inlets are arranged on the top of the container, and their centers are respectively distributed at the center of the circular top of the container and the midpoints of four radii that form an angle of 90° with each other, and its diameter is 20% of the container diameter. Vibrate this reactor up and down, the amplitude of vibra...

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Abstract

The invention discloses a non-acid system liquid-phase synthesis C / metal solid solution / Ba<2+>, Ce<4+> doped BiF3 composite bismuth fluoride lithium ion battery positive electrode material and a preparation method thereof. According to the method, through the mixing manner of reaction raw materials such as bismuth nitrate pentahydrate and ammonium fluoride, the adding manner of water and the design of adding speed, the addition of dilute nitric acid for inhibiting hydrolysis is avoided, and the risk that the dilute nitric acid reacts with the ammonium fluoride to generate high-toxicity hydrogen fluoride is avoided; moreover, a certain amount of high-conductivity carbon and metal solid solution are reduced in situ on the surfaces of bismuth fluoride particles, the metal solid solution provides a homogeneous crystallization core for the electrode material during discharging, and the kinetic blockage of new phase formation is reduced; system doped Ba<2+> and Ce<2+> doping can improve the discharge reaction rate; and moreover, various side reaction products such as double salts of bismuth fluoride are further prevented from being generated in a liquid-phase reaction, and the material has excellent electrochemical performance.

Description

technical field [0001] The invention relates to the technical field of a method for manufacturing a high-performance bismuth fluoride composite lithium battery cathode material. Background technique [0002] Lithium-ion secondary batteries have the absolute advantages of high volume, weight-to-energy ratio, high voltage, low self-discharge rate, no memory effect, long cycle life, and high power density. Currently, the global mobile power market has an annual share of more than 30 billion US dollars and Gradually grow at a rate of more than 10%. Especially in recent years, with the gradual depletion of fossil energy, new energy sources such as solar energy, wind energy, and biomass energy have gradually become alternatives to traditional energy sources. Among them, wind energy and solar energy are intermittent, and a large amount of energy is used simultaneously to meet the needs of continuous power supply. Energy storage batteries; urban air quality problems caused by autom...

Claims

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Application Information

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IPC IPC(8): H01M4/36H01M4/38H01M4/58
CPCH01M4/364H01M4/38H01M4/58Y02E60/10
Inventor 水淼
Owner 宁波吉电鑫新材料科技有限公司
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