Synthesis method of metal deuterium storage material AlD3 powder
A synthesis method and deuterium storage technology, applied in non-metallic elements, chemical instruments and methods, hydrogen isotopes, etc., can solve the problems of low energy supply, low hydrogen storage capacity, low deuterium storage capacity of metal deuterium storage compounds, etc., to achieve Large energy supply, high deuterium storage capacity, and convenient crystal transformation
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specific Embodiment approach 1
[0014] Specific embodiment one: the metal deuterium storage material AlD of this embodiment 3 The synthetic method of powder is carried out as follows:
[0015] 1. Press AlCl 3 and LiAlD 4 The molar ratio is 1: (2~4), AlCl 3 and LiBH 4 The molar ratio is 1: (0.5~10), weigh AlCl 3 、LiAlD 4 and LiBH 4 ; According to anhydrous AlCl 3 The molar ratio to anhydrous ether is 1: (5~20), and anhydrous AlCl 3 Dissolved in anhydrous ether to obtain AlCl 3 solution; according to anhydrous LiAlD 4 The molar ratio with anhydrous ether is 1: (5~20), the anhydrous LiAlD 4 Dissolved in anhydrous ether to obtain LiAlD 4 solution; according to anhydrous LiBH 4 The molar ratio with anhydrous ether is 1: (5~20), the anhydrous LiBH 4 Dissolved in anhydrous ether to obtain LiBH 4 solution;
[0016] Two, the AlCl obtained in step one 3 solution and LiAlD 4 The solution is mixed, stirred for 2~3min, then heated to a temperature of 15~35°C, reacted for 10~60min, left to age for 1~6h, a...
specific Embodiment approach 2
[0020] Specific embodiment two: the difference between this embodiment and specific embodiment one is: the anhydrous AlCl in step one 3 The molar ratio to anhydrous ether is 1: (10~15), anhydrous LiAlD 4 The molar ratio to anhydrous ether is 1: (10~15), anhydrous LiBH 4 The molar ratio with anhydrous ether is 1: (10~15), and other steps and parameters are different from the first embodiment.
specific Embodiment approach 3
[0021] Specific embodiment three: the difference between this embodiment and specific embodiment one or two is: AlCl in step two 3 and LiAlD 4 The molar ratio is 1:3, and other steps and parameters are different from those in Embodiment 1 or 2.
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