使用布朗斯特酸性氢化铱催化剂的串联低聚-氢化反应

Leitgeb Austin J, Chapp Scott M, Fast Caleb D, Fink Kathryn E, Schley Nathan D

Department of Chemistry, Vanderbilt University, Nashville, Tennessee 37235, United States.

Organometallics. 2025 Jul 10;44(14):1499-1504. doi: 10.1021/acs.organomet.5c00160. eCollection 2025 Jul 28.

Cationic iridium complexes bearing the tris-[3,5-bis-(trifluoromethyl)-phenyl]-phosphine ligand unexpectedly give acidic metal hydrides. Net-dihydrogen heterolysis at such complexes provides hydrogenation catalysis by an ionic mechanism. The direct reduction of isobutene competes with cationic oligomerization to give the gasoline additive isooctane (2,4,4-trimethylpentane) as a major product of a tandem oligomerization/hydrogenation sequence. Mechanistic experiments argue for the role of neutral iridium hydrides generated by the proton transfer of a cationic hydride precursor to an olefin substrate.

带有三-[3,5-双-(三氟甲基)-苯基]-膦配体的阳离子铱配合物意外地生成酸性金属氢化物。此类配合物的净二氢异裂通过离子机制提供氢化催化。异丁烯的直接还原与阳离子齐聚反应竞争，以生成汽油添加剂异辛烷（2,4,4-三甲基戊烷），作为串联齐聚/氢化序列的主要产物。机理实验表明，阳离子氢化物前体向烯烃底物质子转移生成的中性铱氢化物起到了作用。