Lithium-sodium dual-alkali metal aluminum-hydrogen compound and synthesis method thereof
A synthesis method and alkali metal technology, applied in the field of lithium sodium double alkali metal aluminum hydride and its synthesis, can solve the problems of dehydrogenation rate to be improved, poor hydrogen absorption kinetics, high initial dehydrogenation temperature, etc., to achieve absorption and release The effect of increased hydrogen rate, simple process, and reduced initial dehydrogenation temperature
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example 1
[0032] Li will be prepared 3 H 6 with Na 3 H 6 The powder was mixed according to the Li-Na molar ratio of 0.9:2.1, and put into a ball mill jar under an argon atmosphere, in which the balls were mixed with Li 3 H 6 Powder and Na 3 H 6 The ratio of the total mass of the two powders is 30:1. Afterwards, the ball mill jar was loaded on the star ball mill, and the Li 0.9 Na 2.1 H 6 Powder, determined by XRD test Li 0.9 Na 2.1 H 6 Pure phase, test its hydrogen storage performance according to the above method, and the dehydrogenation temperature is 210 ° C ~ 260 ° C.
example 2
[0034] Li will be prepared 3 H 6 with Na 3 H 6 The powder was mixed according to the Li-Na molar ratio of 1.0:2.0, and put into a ball mill jar under an argon atmosphere, in which the balls were mixed with Li 3 H 6 Powder and Na 3 H 6 The ratio of the total mass of the two powders is 40:1. Afterwards, the ball mill jar was loaded on the star ball mill, and the Li 1.0 Na 2.0 H 6 Powder, determined by XRD test Li 1.0 Na 2.0 H 6 Pure phase, test its hydrogen storage performance according to the above method, and the dehydrogenation temperature is 210 ° C ~ 260 ° C.
example 3
[0036] Li will be prepared 3 H 6 with Na 3 H 6 The powder was mixed according to the Li-Na molar ratio of 1.1:1.9, and put into a ball mill jar under an argon atmosphere, in which the balls were mixed with Li 3 H 6 Powder and Na 3 H 6 The ratio of the total mass of the two powders is 50:1. Afterwards, the ball mill jar was loaded on the star ball mill, and the Li 1.1 Na 1.9 H 6 Powder, determined by XRD test Li 1.1 Na 1.9 H 6 Pure phase, test its hydrogen storage performance according to the above method, and the dehydrogenation temperature is 210 ° C ~ 260 ° C.
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