Issue 39, 2012

Phenyl introduced ammonium borohydride: synthesis and reversible dehydrogenation properties

Abstract

Novel borohydrides of para- and meta-bis-(ammonium)-benzene (m/p-BABB), possessing theoretical hydrogen storage capacities of 10.1 wt%, have been synthesized upon metathesis of p/m-benzenediamine dihydrochloride (p/m-BDADC) and lithium borohydride through simple ball-milling. It was found that the dehydrogenation of the BABBs proceeds in the temperature range of 50–200 °C via a multistep mechanism similar to that of NH3BH3 and [NH4]+[BH4], releasing 8.35 and 6.52 wt% hydrogen from p- and m-BABB, respectively. Solid state 11B MAS NMR studies indicate that the dehydrogenation process of p-BABB and m-BABB follows a pathway similar to that of [NH4]+[BH4]via [BH2(NH3)2]+[BH4] (DADB). The residues obtained after releasing ∼6 equiv. H2 are mainly N,N′-phenyl substituted polyborazylenes. The dehydrogenated products can be converted back to N,N′-phenyl substituted ammonia-boranes by treatment with hydrazine sulfate [(N2H4)2·H2SO4] in liquid ammonia (NH3) for one week at 45 °C, demonstrating the potential of this class of material for regenerable chemical hydrogen storage.

Graphical abstract: Phenyl introduced ammonium borohydride: synthesis and reversible dehydrogenation properties

Supplementary files

Article information

Article type
Paper
Submitted
19 Jul 2012
Accepted
20 Aug 2012
First published
21 Aug 2012

J. Mater. Chem., 2012,22, 21017-21023

Phenyl introduced ammonium borohydride: synthesis and reversible dehydrogenation properties

S. Li, Z. Tang, Q. Gong, X. Yu, P. R. Beaumont and C. M. Jensen, J. Mater. Chem., 2012, 22, 21017 DOI: 10.1039/C2JM34766K

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