Insight into enhanced dehydrogenation of LiBH4 modified with Bi and S/Se/Te from first-principles calculations

[Display omitted] •Dehydrogenation properties of Bi + S/Se/Te co-doped LiBH4 are investigated theoretically.•Bi + S/Se/Te co-doping yields a destabilized LiBH4 with favorable H-desorption.•The decreased B-H interaction and formed Li-S/S/Te bond favor for LiBH4 destabilization.•Bi + Se addition is mo...

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Published inInorganic chemistry communications Vol. 157; p. 111243
Main Authors Huang, Yong, Mo, Xiaohua, Jiang, Weiqing, Zhou, Rui, Li, Xiangyu, Hu, Chunyan, Zuo, Xiaoli, Wei, Qi
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.11.2023
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Abstract [Display omitted] •Dehydrogenation properties of Bi + S/Se/Te co-doped LiBH4 are investigated theoretically.•Bi + S/Se/Te co-doping yields a destabilized LiBH4 with favorable H-desorption.•The decreased B-H interaction and formed Li-S/S/Te bond favor for LiBH4 destabilization.•Bi + Se addition is more beneficial for LiBH4 decomposition. A systematic study for the dehydrogenation of LiBH4 modified with Bi and S/Se/Te was performed by first-principles density functional theory calculations. It is found that Bi-for-Li and S/Se/Te-for-H co-substitution allow lower occupation energy and total energy for Bi + S/Se/Te co-doped LiBH4, compared to Bi-for-Li and S/Se/Te-for-B co-substitution. Thus, corresponding compounds Li7BiB8XH31 (X = S, M1; X = Se, M2; X = Te, M3), as well as pristine compound Li8B8H32 (M0), are selected as representatives for hydrogen desorption energies and electronic structures calculations. Our calculated results show that Bi + S/Se/Te co-doping yields a destabilized LiBH4 with enhanced dehydrogenation performance, with the atomic and molecular hydrogen desorption energies (Ed-H and Ed-H2) and the scaled bond order between B-H (BOsB-H) all decreasing in the order of M0 > M3 > M2 > M1. This destabilization of LiBH4 using Bi + S/Se/Te is attributed to the decrease of B-H covalent interactions, the formation of Li-S/Se/Te bonds, and the stronger electronegativity of Bi (relative to Li atom) and S/Se atoms (relative to H atom). Bi + S addition can lower the hydrogen desorption energies to −0.511 eV (Ed-H) and 1.061 eV (Ed-H). However, LiBH4 with Bi + S additives may generate S-H interactions for H2S formation, causing a loss of reversibility for hydrogen storage. For this fact, Bi + Se co-doping should be beneficial for LiBH4 decomposition.
AbstractList [Display omitted] •Dehydrogenation properties of Bi + S/Se/Te co-doped LiBH4 are investigated theoretically.•Bi + S/Se/Te co-doping yields a destabilized LiBH4 with favorable H-desorption.•The decreased B-H interaction and formed Li-S/S/Te bond favor for LiBH4 destabilization.•Bi + Se addition is more beneficial for LiBH4 decomposition. A systematic study for the dehydrogenation of LiBH4 modified with Bi and S/Se/Te was performed by first-principles density functional theory calculations. It is found that Bi-for-Li and S/Se/Te-for-H co-substitution allow lower occupation energy and total energy for Bi + S/Se/Te co-doped LiBH4, compared to Bi-for-Li and S/Se/Te-for-B co-substitution. Thus, corresponding compounds Li7BiB8XH31 (X = S, M1; X = Se, M2; X = Te, M3), as well as pristine compound Li8B8H32 (M0), are selected as representatives for hydrogen desorption energies and electronic structures calculations. Our calculated results show that Bi + S/Se/Te co-doping yields a destabilized LiBH4 with enhanced dehydrogenation performance, with the atomic and molecular hydrogen desorption energies (Ed-H and Ed-H2) and the scaled bond order between B-H (BOsB-H) all decreasing in the order of M0 > M3 > M2 > M1. This destabilization of LiBH4 using Bi + S/Se/Te is attributed to the decrease of B-H covalent interactions, the formation of Li-S/Se/Te bonds, and the stronger electronegativity of Bi (relative to Li atom) and S/Se atoms (relative to H atom). Bi + S addition can lower the hydrogen desorption energies to −0.511 eV (Ed-H) and 1.061 eV (Ed-H). However, LiBH4 with Bi + S additives may generate S-H interactions for H2S formation, causing a loss of reversibility for hydrogen storage. For this fact, Bi + Se co-doping should be beneficial for LiBH4 decomposition.
ArticleNumber 111243
Author Zhou, Rui
Wei, Qi
Huang, Yong
Mo, Xiaohua
Jiang, Weiqing
Zuo, Xiaoli
Li, Xiangyu
Hu, Chunyan
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  organization: School of Physical Science & Technology, Guangxi University, Nanning 530004, China
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Keywords First-principles calculations
Hydrogen desorption energy
Electronic structure
LiBH4
Bi+S/Se/Te co-doping
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Snippet [Display omitted] •Dehydrogenation properties of Bi + S/Se/Te co-doped LiBH4 are investigated theoretically.•Bi + S/Se/Te co-doping yields a destabilized LiBH4...
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SubjectTerms Bi+S/Se/Te co-doping
Electronic structure
First-principles calculations
Hydrogen desorption energy
LiBH4
Title Insight into enhanced dehydrogenation of LiBH4 modified with Bi and S/Se/Te from first-principles calculations
URI https://dx.doi.org/10.1016/j.inoche.2023.111243
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