posted on 2024-11-16, 10:17authored byZhenguo Huang, Hima K Lingam, Xuenian Chen, Spencer Porter, Aijun Du, Patrick M Woodard, Sheldon Shore, Ji-Cheng Zhao
Boron–nitrogen containing compounds with high hydrogen contents as represented by ammonia borane (NH3BH3) have recently attracted intense interest for potential hydrogen storage applications. One such compound is [(NH3)2BH2]B3H8 with a capacity of 18.2 wt% H. Two safe and efficient synthetic routes to [(NH3)2BH2]B3H8 have been developed for the first time since it was discovered 50 years ago. The new synthetic routes avoid a dangerous starting chemical, tetraborane (B4H10), and afford a high yield. Single crystal X-ray diffraction analysis reveals N–Hd+…Hd2–B dihydrogen interactions in the [(NH3)2BH2]B3H8?18- crown-6 adduct. Extended strong dihydrogen bonds were observed in pure [(NH3)2BH2]B3H8 through crystal structure solution based upon powder X-ray analysis. Pyrolysis of [(NH3)2BH2]B3H8 leads to the formation of hydrogen gas together with appreciable amounts of volatile boranes below 160 uC.
Huang, Z., Lingam, H. K., Chen, X., Porter, S., Du, A., Woodard, P. M., Shore, S. & Zhao, J. (2013). Synthesis, structural analysis, and thermal decomposition studies of [(NH3)2BH2]B3H8. RSC Advances, 3 (20), 7460-7465.