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Ammonia borane confined by nitrogen-containing carbon nanotubes: enhanced dehydrogenation properties originating from synergetic catalysis and nanoconfinement

journal contribution
posted on 2024-11-16, 09:51 authored by Lijun Zhang, Guanglin Xia, Yu Ge, Caiyun WangCaiyun Wang, Zaiping GuoZaiping Guo, Xingguo Li, Xuebin Yu
The Royal Society of Chemistry. Borane-amine adducts (H3N·BH3, AB) in tetrahydrofuran solution were infiltrated into polypyrrole (PPy) nanotubes by a capillary effect, forming an ammonia borane (AB)@PPy combined system. This composite system combines the synergetic catalysis of nitrogen atoms with nanoconfinement in nanotubes, resulting in a significant improvement in the dehydrogenation properties. Dehydrogenation results showed that the AB loaded on PPy can release 15.3% hydrogen below 150 °C with an onset decomposition temperature as low as 48 °C. More importantly, the evolution of harmful ammonia, diborane, and borazine was entirely suppressed.

Funding

ARC Centre of Excellence for Electromaterials Science

Australian Research Council

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Citation

Zhang, L., Xia, G., Ge, Y., Wang, C., Guo, Z., Li, X. & Yu, X. (2015). Ammonia borane confined by nitrogen-containing carbon nanotubes: enhanced dehydrogenation properties originating from synergetic catalysis and nanoconfinement. Journal of Materials Chemistry A, 3 (41), 20494-20499.

Journal title

Journal of Materials Chemistry A

Volume

3

Issue

41

Pagination

20494-20499

Language

English

RIS ID

103595

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