Issue 7, 2019

Hydrogen generation from a sodium borohydride–nickel core@shell structure under hydrolytic conditions

Abstract

Sodium borohydride (NaBH4) is an attractive hydrogen carrier owing to its reactivity with water: it can generate 4 equivalents of H2 by hydrolysis (NaBH4 + 4H2O → NaB(OH)4 + 4H2). Since using NaBH4 in the solid state is the most favorable way to achieve a high gravimetric hydrogen storage capacity (theoretical maximum of 7.3 wt%), we have investigated the possibility of developing a core@shell nanocomposite (NaBH4@Ni) where a metallic nickel catalyst facilitating the hydrolysis is directly supported onto NaBH4 nanoparticles. Following our initial work on core–shell hydrides, the successful preparation of NaBH4@Ni has been confirmed by TEM, EDS, IR, XRD and XPS. During hydrolysis, the intimately combined Ni0 and NaBH4 allow the production of H2 at high rates (e.g. 6.1 L min−1 g−1 at 39 °C) when water is used in excess. After H2 generation, the spent fuel is composed of an aqueous solution of NaB(OH)4 and a nickel-based agglomerated material in the form of Ni(OH)2 as evidenced by TEM, XPS and XRD. The effective gravimetric hydrogen storage capacity of nanosized NaBH4@Ni has been optimized by adjusting the required amount of water for hydrolysis and an effective hydrogen capacity of 4.4 wt% has been achieved. This is among the best reported values.

Graphical abstract: Hydrogen generation from a sodium borohydride–nickel core@shell structure under hydrolytic conditions

Supplementary files

Article information

Article type
Paper
Submitted
21 Jan 2019
Accepted
03 Jun 2019
First published
12 Jun 2019
This article is Open Access
Creative Commons BY-NC license

Nanoscale Adv., 2019,1, 2707-2717

Hydrogen generation from a sodium borohydride–nickel core@shell structure under hydrolytic conditions

Q. Lai, D. Alligier, K. Aguey-Zinsou and U. B. Demirci, Nanoscale Adv., 2019, 1, 2707 DOI: 10.1039/C9NA00037B

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