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| Title
| - Investigation on the Properties of the Mixture Consisting of Mg(NH2)2, LiH, and LiBH4 as a Hydrogen Storage Material
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| Abstract
| - A maximum hydrogen amount of 9.1 wt % was obtained at 300 °C from the 1Mg(NH2)2−2LiH−0.67LiBH4 system. Various analyses and thermodynamic calculations revealed that the MgH2 and LiNH2 can be readily converted to Mg(NH2)2 and LiH at 120 °C in the presence of LiBH4. A comparison between the sample 1Mg(NH2)2−2LiH−1LiBH4 and the ternary mixture 1MgH2−2LiNH2−1LiBH4 indicated that both samples behave very similarly in hydrogen desorption, thermal effects, and chemical changes during dehydrogenation.
- MgH2 and LiNH2 can be readily converted to Mg(NH2)2 and LiH at 120 °C in the presence of LiBH4, which makes 1Mg(NH2)2−2LiH−1LiBH4 an equivalent hydrogen storage system to the ternary mixture 1MgH2−2LiNH2−1LiBH4.
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| Alternative Title
| - Mg(NH2)2, LiH, and LiBH4 as Hydrogen Storage Material
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