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One-step synthesized perovskite oxide NaTaO3 sodium-ion battery negative electrode material and preparation method thereof

A perovskite oxide and sodium ion battery technology, applied in battery electrodes, chemical instruments and methods, tantalum compounds, etc., can solve problems such as weak lithium ion diffusion ability, affecting material reversibility, material lattice transformation, etc., to achieve Accelerate the migration ability and the rate of redox reaction, reduce the resistance of electron migration, and reduce the effect of grain boundary resistance

Active Publication Date: 2017-11-24
HAIMEN THE YELLOW SEA ENTREPRENEURSHIP PARK SERVICE CO LTD
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Problems solved by technology

However, it is still very difficult to take into account the rate performance and cycle capacity retention performance of the material.
The main reasons are as follows: 1. When the redox reaction occurs, the electrode material should have fast lithium ion intercalation and deintercalation and electronic conduction, that is, it should have good electronic conductivity and ion conductivity at the same time. Many negative electrode materials have high However, it is an electronic insulator, and some negative electrode materials are good electronic conductors, but the diffusion capacity of lithium ions is weak, which greatly increases the polarization of the battery; 2. Many electrode materials are intercalated with lithium ions and There is a large volume change during the deintercalation process, resulting in the breakage of electrode material particles and the loss of effective electrode materials during the cycle. The large volume change also brings about the transformation of the material lattice during the charging and discharging process to produce a second phase. seriously affect the performance of the battery
3. Lithium battery negative electrode material with conversion reaction mechanism, the electronic insulation of the reaction product lithium compound seriously affects the reversibility of the material
ABOs 3 When the alloy reaction is carried out, the oxide can react with two metals, which may produce alloy solid solutions in various phases. Due to the interaction of bimetals, it may also produce electrochemical characteristics that are completely different from those of single metals. Therefore, ABOs 3 Type oxides have the potential to become a high-performance sodium-ion battery anode material, which may provide close to or more than 500mAh.g -1 The specific capacity, the volume change of the material that sodium ions enter or exit is also small; however, the research and development of this material in sodium ion batteries is basically blank
And its main problem is: 1, ionic conductivity and electron conductivity are lower; 2, the product sodium oxide after conversion reaction is electronic insulator and its sodium ion diffusion activation energy is also higher, causes larger electrochemical polarization; 3. The synthesis temperature is high, which is easy to cause the growth and agglomeration of grains
[0014] In response to these problems, changing the shape of the material can alleviate these problems to a certain extent. For example, reducing the particle size of the material to the nanometer scale can reduce the diffusion path of sodium ions, shorten the diffusion time of sodium ions, and improve the kinetics of the material. Performance; too small particle size can easily cause difficulties in electronic conduction between particles; the same agglomeration between particles or too large particles can easily cause electrolyte penetration difficulties between particles, slow migration of sodium ions, etc.

Method used

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  • One-step synthesized perovskite oxide NaTaO3 sodium-ion battery negative electrode material and preparation method thereof
  • One-step synthesized perovskite oxide NaTaO3 sodium-ion battery negative electrode material and preparation method thereof

Examples

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Effect test

Embodiment 1

[0023] Embodiment 1: Put sodium nitrate and tantalum pentoxide into a ball mill with a mass ratio of 1:0.5, the mass ratio of the ball mill to the material is 20:1, and ball mill for 11 hours at a speed of 200 rpm. The ball-milled material is fed into such as figure 1 In the synthesizer shown, the flow velocity of the air is 0.5m 3 min -1 ; The synthesis device consists of four parts: an ultrasonic atomizer, a droplet area, a tube furnace and a cyclone separator; at the same time, start the ultrasonic atomizer and immerse in 1.0mol L -1 An immersion ultrasonic transducer with a power of 250W in potassium nitrate aqueous solution produces a large number of mist droplets and the flow rate is 0.5L min -1 The mixed gas of oxygen and argon with a volume ratio of 20:80 is carried from below to the droplet area; the air carries the ball-milled material through the droplet area and then passes through a tube with a length of 3 meters and a constant temperature of 900 ° C. into the ...

Embodiment 2

[0024] Embodiment 2: Sodium nitrate and tantalum pentoxide were put into a ball mill with a mass ratio of 1:0.5, the mass ratio of the ball mill and the material was 20:1, and ball milled at a speed of 400 rpm for 19 hours. The ball-milled material is fed into such as figure 1 In the synthesizer shown, the air velocity is 3.5m 3 min -1 ; The synthesis device consists of four parts: ultrasonic atomizer, drop zone, tube furnace and cyclone separator; at the same time, start the ultrasonic atomizer and immerse in 1.5mol L -1 An immersed ultrasonic transducer with a power of 250W in potassium nitrate aqueous solution produces a large number of mist droplets and the flow rate is 3.5L min -1 The mixed gas of oxygen and argon with a volume ratio of 20:80 is carried from below to the droplet area; the air carries the ball-milled material through the droplet area and then passes through a tube with a length of 5 meters and a constant temperature of 1200 ° C. into the cyclone separat...

Embodiment 3

[0025] Embodiment 3: Sodium nitrate and tantalum pentoxide are put into a ball mill with a mass ratio of 1:0.5, the mass ratio of the ball mill to the material is 20:1, and ball milled at a speed of 300 rpm for 15 hours. The material after ball milling is sent into such as figure 1 In the synthetic device shown, the flow rate of nitrogen is 3.0m 3 min -1 ; The synthesis device consists of four parts: an ultrasonic atomizer, a droplet area, a tube furnace and a cyclone separator; at the same time, start the ultrasonic atomizer and immerse in 1.2mol L -1 An immersion ultrasonic transducer with a power of 250W in potassium nitrate aqueous solution produces a large number of droplets and the flow rate is 2.5L min -1 The mixed gas of oxygen and argon with a volume ratio of 20:80 is carried from below to the droplet area; nitrogen carries the ball-milled material through the droplet area and then passes through a tube with a length of 4 meters and a constant temperature of 1100 °C...

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Abstract

The invention relates to a one-step synthesized perovskite oxide NaTaO3 sodium-ion battery negative electrode material and a preparation method thereof. The preparation method is characterized by comprising the steps of utilizing an airflow for carrying a reaction material to quickly pass through an atomizing sintering aid area so as to unevenly adhere with a sintering aid, then one-step continuously obtain a product in a high-temperature tubular furnace, and unevenly adhering with the sintering aid so as to enable a product particle part to form a continuous porous shape; the shape is beneficial for reducing grain boundary resistance and electron transfer resistance; the speed rate of redoxreaction is accelerated; a certain structure rigidity is realized; the high-performance sodium-ion battery negative electrode material is formed.

Description

technical field [0001] The invention relates to the technical field of a method for manufacturing a negative electrode material of a perovskite oxide composite sodium ion battery. 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 aut...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C01G35/00H01M4/48H01M10/054
CPCC01G35/00C01P2006/40H01M4/483H01M10/054Y02E60/10
Inventor 水淼
Owner HAIMEN THE YELLOW SEA ENTREPRENEURSHIP PARK SERVICE CO LTD
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