Double-function oxygen electrode catalyst of lithium air battery
A lithium-air battery and catalyst technology, applied in battery electrodes, physical/chemical process catalysts, circuits, etc., can solve the problems of single electrocatalytic performance, can not meet the requirements of rechargeable lithium-air batteries, etc., and achieve good dual-functional electrocatalytic performance , Easy to scale production, high discharge platform effect
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Embodiment 1
[0030] In this example, the bifunctional oxygen electrode catalyst for the lithium-air battery is a perovskite-type composite oxide whose surface is coated with nitrogen. The catalyst is a powder with a particle diameter of 50-100nm. The perovskite composite oxide is LaNiO 3 .
[0031] In this example, the bifunctional oxygen electrode catalyst for the lithium-air battery is prepared according to the following steps:
[0032] (1) Synthesis of LaNiO by sol-gel method 3 ;
[0033] a. With deionized water as solvent, citric acid and ethylene glycol as complexing agent and thickener respectively, prepare a mixed solution of citric acid, ethylene glycol and soluble metal salt:
[0034] a1. Add 40ml deionized water and 2.9522gNi(NO3) to a 100ml beaker 2 ·6H 2 O, get Ni(NO 3 ) 2 solution;
[0035] a2. Add 40ml deionized water and 3.2492gLa(NO3) to a 100ml beaker 3 ·6H 2 O, get La(NO 3 ) 3 solution;
[0036] a3. Add 50ml of deionized water and 6.3359g of citric acid into...
Embodiment 2
[0053] In this example, the bifunctional oxygen electrode catalyst for the lithium-air battery is a perovskite-type composite oxide whose surface is coated with nitrogen. The catalyst is a powder with a particle size of 50-100nm. The perovskite composite oxide is LaNiO 3 .
[0054] In this example, the bifunctional oxygen electrode catalyst for the lithium-air battery is prepared according to the following steps:
[0055] 1, prepare LaNiO by the method identical with embodiment 1 3 .
[0056] 2. Follow the steps below to treat LaNiO 3 The surface is nitrogen coated:
[0057] a. Mix ethanol and deionized water at a ratio of 1:1 to obtain a mixed solution, and LaNiO 3 Add 0.05g into 20mL of the mixture, ultrasonically disperse for 3 hours, add 20ml of concentrated ammonia water dropwise, and continue the ultrasonic reaction for 4 hours to obtain a well-mixed suspension;
[0058] b. Vacuum filter the suspension, take the filter cake and dry it in a blast oven at 40°C for 1...
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