Method for preparing LLTO(lithium lanthanum titanate) film by electron beam heat evaporation
A technology of lithium lanthanum titanyl oxide and electron beam, which is applied in the field of preparation of lithium lanthanum titanyl oxide thin film, can solve the problems of small deposition area and poor deposition efficiency
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Embodiment 1
[0016] In the present invention, a lithium lanthanum titanium oxide (LLTO) solid electrolyte thin film is prepared by an electron beam thermal evaporation method. It is carried out in a vacuum system of electron beam thermal evaporation. First, use a molecular pump to pump the air pressure of the vacuum chamber to 1.0×10 -3 Pa, then the flow ratio of the argon gas and oxygen gas that is passed into the vacuum chamber is controlled by two needle valves to be 2:1, the direction of the inlet is facing the deposition substrate, and the flow rate of the mixed gas is adjusted to keep the pressure of the vacuum chamber at 7×10 -2 Pa. When vaporized, the electron gun output power was 600 watts. Substrate and LiPO 3 The target distance is 30 cm. The deposition rate was 1.6 μm per hour. The substrate temperature was room temperature. Use stainless steel sheet or stainless steel sheet coated with electrode film, glass sheet or glass sheet coated with Au film as the substrate. LLTO...
Embodiment 2
[0021] First, use a molecular pump to pump the air pressure of the vacuum chamber to 1.0×10 -3 Pa, then the flow ratio of the argon gas and oxygen gas that is passed into the vacuum chamber is controlled by two needle valves to be 2:1, the direction of the inlet is facing the deposition substrate, and the flow rate of the mixed gas is adjusted so that the air pressure of the vacuum chamber is maintained at 5×10 -2 Pa. During evaporation, the electron gun output power was 300 watts. Substrate and LiPO 3 The target distance is 30 cm. The deposition rate was 1.0 μm per hour. The substrate temperature was room temperature. Use stainless steel sheet or stainless steel sheet coated with electrode film, glass sheet or glass sheet coated with Au film as the substrate. LLTO target by Li 2 CO 3 (98%), La 2 o 3 (99.95%) and TiO 2 (98%) powder was annealed at 900°C for 8 hours in air at a molar ratio of 1:1:4, and then pressed into discs.
[0022] The as-deposited film has an a...
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