Energies (Oct 2020)

Surface-Controlled Conversion of Ammonia Borane from Boron Nitride

  • Tessui Nakagawa,
  • Hiroki Uesato,
  • Anthony K. Burrell,
  • Takayuki Ichikawa,
  • Hiroki Miyaoka,
  • Benjamin L. Davis,
  • Yoshitsugu Kojima

DOI
https://doi.org/10.3390/en13215569
Journal volume & issue
Vol. 13, no. 21
p. 5569

Abstract

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“One-pot regeneration”, which is simple regneneration method of ammonia borane (AB) using hydrazine and liquid ammonia, enables conversion of AB from hexagonal boron nitride (h-BN) after milling hydrogenation. Solution 11B-NMR revealed the presence of AB after NH3/N2H4 treatment of milled h-BN (BNHx) although the yield of AB was less than 5%. The conversion mechanism was clarified as B-H bonds on the h-BN surface created by ball-milling under hydrogen pressure have an ability to form AB, which was confirmed by Thermogravimetry-Residual Gas Analysis (TG-RGA) and Infrared (IR) analysis. The reaction routes are also the same as regeneration route of polyborazylene because intermediates of AB such as (B(NH2)3 and hydrazine borane were found by solution 11B-NMR after soaking BNHx in liquid NH3 and hydrazine, respectively. Because of the fact that all reactions proceed on the h-BN surface and no reaction proceeds when neat h-BN is treated, breaking of B3N3 ring structure and then creation of B-H bond is the key issue to increase conversion yield of AB.

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