Trimeric cluster of lithium amidoborane-the smallest unit for the modeling of hydrogen release mechanism
Author:
Affiliation:
1. Inorganic Chemistry Group, Institute of Chemistry, St. Petersburg State University; Universitetskaya Nab. 7/9 St. Petersburg 199034 Russia
2. Fukui Institute for Fundamental Chemistry, Kyoto University; Kyoto 606-8103 Japan
Funder
Russian Science Foundation grant
Publisher
Wiley
Subject
Computational Mathematics,General Chemistry
Reference14 articles.
1. High-capacity hydrogen storage in lithium and sodium amidoboranes
2. Hydrogen-Release Mechanisms in Lithium Amidoboranes
3. Mechanistic Study of LiNH2BH3 Formation from (LiH)4 + NH3BH3 and Subsequent Dehydrogenation
4. Potential hydrogen storage of lithium amidoboranes and derivatives
5. Dehydrogenation mechanisms and thermodynamics of MNH2BH3 (M = Li, Na) metal amidoboranes as predicted from first principles
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1. Sodium amidoborane — a dead end for solid-state hydrogen storage or a gateway to advanced energy systems?;International Journal of Hydrogen Energy;2024-03
2. Amidoboranes and hydrazinidoboranes: State of the art, potential for hydrogen storage, and other prospects;International Journal of Hydrogen Energy;2020-11
3. Current progress and research trends on lithium amidoborane for hydrogen storage;Journal of Materials Science;2019-11-13
4. Reversible structural transformations of rubidium and cesium amidoboranes;Polyhedron;2017-05
5. Complex amidoboranes M2[M1(NH2BH3)4] (M1 = Al, Ga; M2 = Li, Na, K, Rb, Cs);Russian Journal of General Chemistry;2017-04
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