Abstract
Dehydrocoupling of the adduct of dimethylamine and borane, NH(CH3)2-BH3 leads to dimethylaminoborane with formal composition N(CH3)2-BH2. The structure of this product depends on the conditions of the synthesis; it may crystallize either as a dimer in a triclinic space group forming a four-membered ring [N(CH3)2-BH2]2 or as a trimer forming a six-membered ring [N(CH3)2-BH2]3 in an orthorhombic space group. Due to the denser packing, the six-membered ring in the trimer structure should be energetically more stable than the four-membered ring. The triclinic structure is stable at low temperatures. Heating the triclinic phase above 290 K leads to a second-order phase transition to a new monoclinic polymorph. While the crystal structures of the triclinic and orthorhombic phases were already known in the literature, the monoclinic crystal structure was determined from powder diffraction data in this study. Monoclinic dimethylaminoborane crystallizes in space group C2/m with the boron and nitrogen atoms located on the mirror plane, Wyckoff position 4i, while the carbon and hydrogen atoms are on the general position 8j.
Highlights
IntroductionNew energy carriers have to be developed to maintain our living standards, especially our mobility
As fossil fuels diminish, new energy carriers have to be developed to maintain our living standards, especially our mobility
Dehydrogenation reactions based on H+ and HÀ interactions are a promising strategy for reversible hydrogen release, storage and activation, e.g. in ammonia borane (Staubitz et al, 2010), amine–metal borohydrides (Jepsen, Ley, Filinchuk et al, 2015; Jepsen, Ley, Cerny et al, 2015; Castilla-Martinez et al, 2020), and solutions containing frustrated Lewis pairs (FLPs) (Welch et al, 2006; Stephan & Erker, 2010) and even solid FLPs (Bowden et al, 2020)
Summary
New energy carriers have to be developed to maintain our living standards, especially our mobility. Several challenges remain to be resolved in the storage and generation of hydrogen before hydrogen becomes an efficient, cheap, safe and clean energy carrier (Eberle et al, 2009; Weidenthaler & Felderhoff, 2011; Ley et al, 2014). Dimethylaminoborane is a compound of a group-13 element hydride and an amine It can crystallize as a dimer or a trimer, with both crystal structures already determined, see above. To get some insight and to identify parameters that influence the formation of the dimeric and trimeric dimethylaminoborane, we investigated the phase stability of dimeric dimethylaminoborane depending on the temperature and the energy of both forms of dimethylaminoborane by experimental and computational methods
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