Direct catalytic transformation of syngas(CO/H_(2)) into high value-added hydrocarbons has been one of the most attractive,yet challenging issues in C1 chemistry. In recent years, the concept of oxide-zeolite(OXZEO) b...Direct catalytic transformation of syngas(CO/H_(2)) into high value-added hydrocarbons has been one of the most attractive,yet challenging issues in C1 chemistry. In recent years, the concept of oxide-zeolite(OXZEO) bifunctional catalysis has emerged and spurred renewed enthusiasm in this field [1,2]. This method describes the use of selected oxide-zeolite-based composite catalysts for the direct syngas-to-hydrocarbons conversion.展开更多
基金supported by the National Natural Science Foundation of China(Grant No.21773230,91945302,21902158,22002165)the Liao Ning Revitalization Talents Program(XLYC1807207)+5 种基金the China National Postdoctoral Program for Innovative Talents(BX20190321)the China Postdoctoral Science Foundation(2019M651161,2019M651154)the DICP&QIBEBT UN201808the DICP I202104the EPSRC Institutional Sponsorship for funding(EP/P511353/1)The DNP MAS NMR experiments were performed at the Nottingham DNP MAS NMR Facility which is funded by the University of Nottingham and EPSRC(EP/L022524/1 and EP/R042853/1)。
文摘Direct catalytic transformation of syngas(CO/H_(2)) into high value-added hydrocarbons has been one of the most attractive,yet challenging issues in C1 chemistry. In recent years, the concept of oxide-zeolite(OXZEO) bifunctional catalysis has emerged and spurred renewed enthusiasm in this field [1,2]. This method describes the use of selected oxide-zeolite-based composite catalysts for the direct syngas-to-hydrocarbons conversion.
