Kawano Yasuro, Shimoi Mamoru
Department of Basic Science, Graduate School of Arts and Sciences, The University of Tokyo, Meguro-ku, Tokyo, 153-8902, Japan.
Dalton Trans. 2017 Sep 12;46(35):11950-11955. doi: 10.1039/c7dt02345f.
H/D scrambling took place in a chromium-catalyzed dehydrocoupling reaction of a deuterium-labeled borane-dimethylamine adduct. In the hydrogen elimination of BH·NDMe (1a-dN), H, HD and D were generated in 65 : 30 : 5 ratio, and 62% of deuterium atoms were incorporated into the major product, the dimethylaminoborane dimer. Proton and deuteron nuclei were thus concentrated into the evolved dihydrogen and aminoborane dimer, respectively. The mechanism of H/D scrambling is understood based on the reaction pathway of the dehydrocoupling of 1a, which was previously proposed based on DFT calculations. The H/D distribution in the products is explained by the energy difference according to the deuterated position in an intermediate of the dehydrocoupling reaction.
在氘标记的硼烷 - 二甲胺加合物的铬催化脱氢偶联反应中发生了H/D重排。在BH·NDMe(1a - dN)的氢消除反应中,生成的H、HD和D的比例为65∶30∶5,并且62%的氘原子掺入到主要产物二甲氨基硼烷二聚体中。因此,质子和氘核分别富集到逸出的氢气和氨基硼烷二聚体中。基于先前根据密度泛函理论计算提出的1a脱氢偶联反应途径,理解了H/D重排的机理。根据脱氢偶联反应中间体中氘化位置的能量差异,解释了产物中的H/D分布。
