Theoretical study of the structure and dehydrogenation mechanism of sodium hydrazinidoborane

Tong Li; Kun Wang; Jian Guo Zhang

doi:10.1142/S0219633617500201

Theoretical study of the structure and dehydrogenation mechanism of sodium hydrazinidoborane

Tong Li, Kun Wang, Jian Guo Zhang^*

^*此作品的通讯作者

机电学院

科研成果: 期刊稿件 › 文章 › 同行评审

3 引用（Scopus）

摘要

Alkali-metal hydrazinidoboranes have been recently investigated as a new stable high-capacity material for hydrogen storage, necessitating an exploration of the dehydrogenation mechanism for further developments in this field. Herein, we present a first systematic study of the structure and dehydrogenation mechanism of sodium hydrazinidoborane (NaHB) with three possible pathways considered: pathway A, corresponding to unimolecular dehydrogenation; pathway B, featuring dehydrogenation of the (NaHB)₂ dimer via two different sub-pathways, and pathway C, corresponding to direct dehydrogenation (as compared to B). The calculated rate of the most probable dehydrogenation pathway (B, 3.28min-1) is similar to that obtained experimentally (12.26min-1), supporting the validity of our findings.

源语言	英语
文章编号	1750020
期刊	Journal of Theoretical and Computational Chemistry
卷	16
期	3
DOI	https://doi.org/10.1142/S0219633617500201
出版状态	已出版 - 1 5月 2017

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title = "Theoretical study of the structure and dehydrogenation mechanism of sodium hydrazinidoborane",

abstract = "Alkali-metal hydrazinidoboranes have been recently investigated as a new stable high-capacity material for hydrogen storage, necessitating an exploration of the dehydrogenation mechanism for further developments in this field. Herein, we present a first systematic study of the structure and dehydrogenation mechanism of sodium hydrazinidoborane (NaHB) with three possible pathways considered: pathway A, corresponding to unimolecular dehydrogenation; pathway B, featuring dehydrogenation of the (NaHB)2 dimer via two different sub-pathways, and pathway C, corresponding to direct dehydrogenation (as compared to B). The calculated rate of the most probable dehydrogenation pathway (B, 3.28min-1) is similar to that obtained experimentally (12.26min-1), supporting the validity of our findings.",

keywords = "Sodium hydrazinidoborane, dehydrogenation mechanism, dynamic parameter, hydrogen-storage material",

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T1 - Theoretical study of the structure and dehydrogenation mechanism of sodium hydrazinidoborane

AU - Li, Tong

AU - Wang, Kun

AU - Zhang, Jian Guo

PY - 2017/5/1

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N2 - Alkali-metal hydrazinidoboranes have been recently investigated as a new stable high-capacity material for hydrogen storage, necessitating an exploration of the dehydrogenation mechanism for further developments in this field. Herein, we present a first systematic study of the structure and dehydrogenation mechanism of sodium hydrazinidoborane (NaHB) with three possible pathways considered: pathway A, corresponding to unimolecular dehydrogenation; pathway B, featuring dehydrogenation of the (NaHB)2 dimer via two different sub-pathways, and pathway C, corresponding to direct dehydrogenation (as compared to B). The calculated rate of the most probable dehydrogenation pathway (B, 3.28min-1) is similar to that obtained experimentally (12.26min-1), supporting the validity of our findings.

AB - Alkali-metal hydrazinidoboranes have been recently investigated as a new stable high-capacity material for hydrogen storage, necessitating an exploration of the dehydrogenation mechanism for further developments in this field. Herein, we present a first systematic study of the structure and dehydrogenation mechanism of sodium hydrazinidoborane (NaHB) with three possible pathways considered: pathway A, corresponding to unimolecular dehydrogenation; pathway B, featuring dehydrogenation of the (NaHB)2 dimer via two different sub-pathways, and pathway C, corresponding to direct dehydrogenation (as compared to B). The calculated rate of the most probable dehydrogenation pathway (B, 3.28min-1) is similar to that obtained experimentally (12.26min-1), supporting the validity of our findings.

KW - Sodium hydrazinidoborane

KW - dehydrogenation mechanism

KW - dynamic parameter

KW - hydrogen-storage material

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Theoretical study of the structure and dehydrogenation mechanism of sodium hydrazinidoborane

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