Highly Selective and Efficient Perdeuteration of n‐Pentane via H/D Exchange Catalyzed by a Silica‐Supported Hafnium‐Iridium Bimetallic Complex
Andrey V. Pichugov, Léon Escomel, Sébastien Lassalle, Julien Petit, Ribal Jabbour, David Gajan, Laurent Veyre, Emiliano Fonda, Anne Lesage, Chloé Thieuleux, Clément Camp
Abstract
Abstract A Surface OrganoMetallic Chemistry (SOMC) approach is used to prepare a novel hafnium‐iridium catalyst immobilized on silica, HfIr/SiO 2 , featuring well‐defined [≡SiOHf(CH 2 t Bu) 2 (μ‐H) 3 IrCp*] surface sites. Unlike the monometallic analogous materials Hf/SiO 2 and Ir/SiO 2 , which promote n ‐pentane deuterogenolysis through C−C bond scission, we demonstrate that under the same experimental conditions (1 bar D 2 , 250 °C, 3 h, 0.5 mol %), the heterobimetallic catalyst HfIr/SiO 2 is highly efficient and selective for the perdeuteration of alkanes with D 2 , exemplified on n ‐pentane, without substantial deuterogenolysis (<2 % at 95 % conversion). Furthermore this HfIr/SiO 2 catalyst is robust and can be re‐used several times without evidence of decomposition. This represents substantial advance in catalytic H/D isotope exchange (HIE) reactions of C(sp 3 )−H bonds.