Synthesis and partial dehydrogenation of the impregnated lithium borohydride, LiBH4

Masaharu Menjo; Hai Wen Li; Motoaki Matsuo; Kazutaka Ikeda; Shin Ichi Orimo

doi:10.2109/jcersj2.117.457

Synthesis and partial dehydrogenation of the impregnated lithium borohydride, LiBH₄

Masaharu Menjo, Hai Wen Li, Motoaki Matsuo, Kazutaka Ikeda, Shin Ichi Orimo

Tohoku University

Research output: Contribution to journal › Article › peer-review

4 Citations (Scopus)

Abstract

LiBH₄ with high hydrogen density has been attracting great interest as one of potential candidates of advanced hydrogen storage materials. A feasible way to overcome problematic issues on dehydrogenation of LiBH ₄, such as formation of fine powders and overflow by melting, is expected to synthesize bulk LiBH₄ by applying the "impregnation method". In the present study, LiBH₄ on a Ni foam with porosity of 98% homogeneously impregnated the foam at 573 K without changing the original bulk morphology of the foam. The morphology of the impregnated LiBH₄ was also well retained, even after a partial dehydrogenation at 873 K. Some Ni borides were found to be newly formed depending on the heating (dehydrogenation) conditions, and the formation probably dominates the microstructure and dehydrogenation property of the impregnated LiBH₄.

Original language	English
Pages (from-to)	457-460
Number of pages	4
Journal	Journal of the Ceramic Society of Japan
Volume	117
Issue number	1364
DOIs	https://doi.org/10.2109/jcersj2.117.457
Publication status	Published - 2009 Apr

Keywords

Boride
Borohydride
Complex hydride
Hydrogen storage
Impregnation

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abstract = "LiBH4 with high hydrogen density has been attracting great interest as one of potential candidates of advanced hydrogen storage materials. A feasible way to overcome problematic issues on dehydrogenation of LiBH 4, such as formation of fine powders and overflow by melting, is expected to synthesize bulk LiBH4 by applying the {"}impregnation method{"}. In the present study, LiBH4 on a Ni foam with porosity of 98% homogeneously impregnated the foam at 573 K without changing the original bulk morphology of the foam. The morphology of the impregnated LiBH4 was also well retained, even after a partial dehydrogenation at 873 K. Some Ni borides were found to be newly formed depending on the heating (dehydrogenation) conditions, and the formation probably dominates the microstructure and dehydrogenation property of the impregnated LiBH4.",

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T1 - Synthesis and partial dehydrogenation of the impregnated lithium borohydride, LiBH4

AU - Menjo, Masaharu

AU - Li, Hai Wen

AU - Matsuo, Motoaki

AU - Ikeda, Kazutaka

AU - Orimo, Shin Ichi

PY - 2009/4

Y1 - 2009/4

N2 - LiBH4 with high hydrogen density has been attracting great interest as one of potential candidates of advanced hydrogen storage materials. A feasible way to overcome problematic issues on dehydrogenation of LiBH 4, such as formation of fine powders and overflow by melting, is expected to synthesize bulk LiBH4 by applying the "impregnation method". In the present study, LiBH4 on a Ni foam with porosity of 98% homogeneously impregnated the foam at 573 K without changing the original bulk morphology of the foam. The morphology of the impregnated LiBH4 was also well retained, even after a partial dehydrogenation at 873 K. Some Ni borides were found to be newly formed depending on the heating (dehydrogenation) conditions, and the formation probably dominates the microstructure and dehydrogenation property of the impregnated LiBH4.

AB - LiBH4 with high hydrogen density has been attracting great interest as one of potential candidates of advanced hydrogen storage materials. A feasible way to overcome problematic issues on dehydrogenation of LiBH 4, such as formation of fine powders and overflow by melting, is expected to synthesize bulk LiBH4 by applying the "impregnation method". In the present study, LiBH4 on a Ni foam with porosity of 98% homogeneously impregnated the foam at 573 K without changing the original bulk morphology of the foam. The morphology of the impregnated LiBH4 was also well retained, even after a partial dehydrogenation at 873 K. Some Ni borides were found to be newly formed depending on the heating (dehydrogenation) conditions, and the formation probably dominates the microstructure and dehydrogenation property of the impregnated LiBH4.

KW - Boride

KW - Borohydride

KW - Complex hydride

KW - Hydrogen storage

KW - Impregnation

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Synthesis and partial dehydrogenation of the impregnated lithium borohydride, LiBH₄

Abstract

Keywords

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