Vellala Syed Ali Mohamed Niyaz, Huang Weiheng, Tian Xinxin, Jiao Haijun, Jackstell Ralf, Franke Robert, Beller Matthias
Leibniz Institute for Catalysis, Albert-Einstein-Straße 29a, 18059 Rostock, Germany.
Institute of Molecular Science, Shanxi University, Taiyuan 030006, China.
J Am Chem Soc. 2025 Sep 10;147(36):32873-32882. doi: 10.1021/jacs.5c09325. Epub 2025 Aug 28.
A unique multimetallic catalyst system that allows for the direct carbonylation of aliphatic and aromatic olefins with carbon dioxide and hydrogen has been developed. The employment of palladium and iridium precursors, in conjunction with 1,2-bis(di--butylphosphinomethyl)benzene (dbpx) or its derivatives as active ligands and Zn(OTf) (OTf: trifluoromethanesulfonate) as an essential acidic additive, has been shown to result in the selective formation of aliphatic esters in CO-based carbonylations, exhibiting unparalleled regioselectivity. Detailed control experiments and mechanistic investigations suggest an initial Ir-catalyzed formation of alkyl formates from carbon dioxide, followed by Pd-catalyzed alkoxycarbonylation at a low CO concentration. The desired transformation has been observed to occur in several industrially relevant alkene substrates, thereby creating a potential avenue for further research and industrial applications.
已开发出一种独特的多金属催化剂体系,该体系可实现脂肪族和芳香族烯烃与二氧化碳及氢气的直接羰基化反应。钯和铱前体与1,2-双(二-丁基膦甲基)苯(dbpx)或其衍生物作为活性配体,以及Zn(OTf)₂(OTf:三氟甲磺酸盐)作为必需的酸性添加剂一起使用,已证明在基于CO的羰基化反应中可选择性地形成脂肪族酯,表现出无与伦比的区域选择性。详细的对照实验和机理研究表明,最初由Ir催化二氧化碳形成甲酸酯,随后在低CO浓度下由Pd催化进行烷氧基羰基化反应。已观察到在几种与工业相关的烯烃底物中发生了所需的转化,从而为进一步研究和工业应用开辟了一条潜在途径。
