Method for preparing lithium battery electrode material FeSe2 thin film through magnetron sputtering

A magnetron sputtering and electrode material technology, applied in sputtering plating, metal material coating process, ion implantation plating and other directions, can solve the problems of difficult to prepare large-area thin films, expensive preparation equipment, large energy consumption, etc. Achieve the effects of high magnetron sputtering efficiency, good repeatability and low preparation cost

Inactive Publication Date: 2015-12-02
SOUTHWEST JIAOTONG UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

This method has the following disadvantages: 1) the laser focus range is small, and it is difficult to prepare large-area thin films; 2) the laser energy is very high and the air is easily ionized, so the vacuum degree in the prepar

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  • Method for preparing lithium battery electrode material FeSe2 thin film through magnetron sputtering
  • Method for preparing lithium battery electrode material FeSe2 thin film through magnetron sputtering

Examples

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Effect test

Embodiment 1

[0028] Preparation of lithium battery electrode material FeSe by magnetron sputtering 2 A thin film method comprising the steps of:

[0029] a, sputtering preparation: select the silicon substrate as the substrate for magnetron sputtering, select the FeSe target material with a purity of 99.99% as the sputtering target material for magnetron sputtering, clean the silicon substrate; The silicon substrate and the FeSe target are installed at corresponding positions in the magnetron sputtering chamber, and the distance from the FeSe target to the silicon substrate is adjusted to 7cm;

[0030] b. Sputtering deposition: evacuate the vacuum chamber to a pressure less than 2×10 -4 Pa, then feed argon with a purity of 99.995% as the working gas, adjust the sputtering pressure to 0.5Pa, the substrate temperature to 600°C, the sputtering power to 60W, and deposit a thin film on the silicon substrate after 0.5h of sputtering;

[0031] c. Post-annealing treatment: the silicon substrate ...

Embodiment 2

[0037] Preparation of lithium battery electrode material FeSe by magnetron sputtering 2 A thin film method comprising the steps of:

[0038] a, sputtering preparation: select the silicon substrate as the substrate for magnetron sputtering, select the FeSe target material with a purity of 99.99% as the sputtering target material for magnetron sputtering, clean the silicon substrate; The silicon substrate and the FeSe target are installed at corresponding positions in the magnetron sputtering chamber, and the distance from the FeSe target to the silicon substrate is adjusted to 5cm;

[0039] b. Sputtering deposition: evacuate the vacuum chamber to a pressure less than 2×10 -4Pa, then feed argon gas with a purity of 99.995% as the working gas, adjust the sputtering pressure to 0.45Pa, the substrate temperature to 500°C, the sputtering power to 80W, and deposit a thin film on the silicon substrate after 1h of sputtering;

[0040] c. Post-annealing treatment: the silicon substrat...

Embodiment 3

[0044] Preparation of lithium battery electrode material FeSe by magnetron sputtering 2 A thin film method comprising the steps of:

[0045] a, sputtering preparation: select the silicon substrate as the substrate for magnetron sputtering, select the FeSe target material with a purity of 99.99% as the sputtering target material for magnetron sputtering, clean the silicon substrate; The silicon substrate and the FeSe target are installed at corresponding positions in the magnetron sputtering chamber, and the distance from the FeSe target to the silicon substrate is adjusted to 6cm;

[0046] b. Sputtering deposition: evacuate the vacuum chamber to a pressure less than 2×10 -4 Pa, then feed argon gas with a purity of 99.995% as the working gas, adjust the sputtering pressure to 0.55Pa, the substrate temperature to 400°C, the sputtering power to 70W, and deposit a thin film on the silicon substrate after 0.7h of sputtering;

[0047] c. Post-annealing treatment: the silicon subst...

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Abstract

Disclosed is a method for preparing a lithium battery electrode material FeSe2 thin film through magnetron sputtering. The method comprises the steps that a, preparation of sputtering is conducted, a silicon chip selected as a substrate and a FeSe target selected as a sputtering target are installed in a magnetron sputtering chamber, and the distance between the sputtering target and the substrate is adjusted to be 5-7 cm; b, sputtering deposition is conducted, a vacuum chamber is vacuumized until the air pressure is below 2*10-4 Pa, then argon gas is pumped in, the sputtering air pressure, the sputtering power and the temperature of the substrate are adjusted, and a thin film is deposited on the silicon chip after the sputtering is conducted for a certain time; and c, post-annealing treatment is conducted, the silicon chip where the thin film is deposited and a selenium granular ball are sealed in a vacuum quartz tube with the air pressure being smaller than 1*10-2 Pa, then the quartz tube is positioned in a tubular furnace, the post-annealing treatment is conducted under protection of the argon gas, and the FeSe2 thin film is obtained. The method is capable of preparing the FeSe2 thin film with a large area and good properties, simple in preparation process, low in energy consumption, low in cost, high in efficiency, good in repeatability, and suitable for industrialized production.

Description

technical field [0001] The invention relates to a preparation of lithium battery electrode material FeSe 2 Thin film method, especially related to magnetron sputtering method to prepare lithium battery electrode material FeSe 2 thin film method. Background technique [0002] As a new type of green power supply, lithium battery has high volume and mass specific energy, high average output voltage, large current discharge, small self-discharge rate, long discharge time, high charging efficiency, wide operating temperature range, less pollution, residual capacity test Convenience and other advantages. In addition, according to the requirements of different electrical devices for power output performance, lithium-ion batteries can choose appropriate positive electrode materials, negative electrode materials, electrolytes and assembly processes for corresponding power supply performance design and appearance size design. Superiority and designability are based on the propertie...

Claims

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Application Information

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IPC IPC(8): C23C14/35C23C14/06C23C14/58
Inventor 羊新胜金荣蒲小艳赵勇魏占涛张敏
Owner SOUTHWEST JIAOTONG UNIV
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