Fluorinated organic compounds are of great importance to modern industries,while their release to the environment is inevitable,causing extreme environmental pollution and the subsequent hazardous effect on ecosystems...Fluorinated organic compounds are of great importance to modern industries,while their release to the environment is inevitable,causing extreme environmental pollution and the subsequent hazardous effect on ecosystems.This is because the degradation of fluorinated compounds under mild conditions remains a challenging task due to the strong C-F bond strength.In this study,we report preparation of PdRu@MIL-101 through immobilizing ultrafine PdRu alloy nanoparticles with a mean diameter of∼2 nminto the metal-organic framework(MOF),MIL-101(Cr),which was highly active and stable in the hydrodefluorination of 4-fluorophenol(4-FP)under mild aqueous conditions.The optimized catalyst Pd0.5Ru0.5@MIL-101 achieved impressive hydrogenation performance with a 98.5% conversion of 4-FP and a 97.7% selectivity of cyclohexanol,much better than the single metal-doped Pd@MIL-101 and Ru@MIL-101 catalysts.The excellent catalytic behavior contributed to the synergistic effect of combining the PdRu alloying effect and the MOF nanospace confinement effect,providing a promising strategy to develop highly efficient hydrodefluorination catalysts to assist environmental restoration and green ecology.展开更多
An effective and facile method for preparation of partially fluorinated aromatics via Nickel catalyzed, chelation-assisted ortho selective hydrodefluorination of polyfluoroames with triethylsilane has been developed, ...An effective and facile method for preparation of partially fluorinated aromatics via Nickel catalyzed, chelation-assisted ortho selective hydrodefluorination of polyfluoroames with triethylsilane has been developed, in which N-containing heterocycles were used as directing groups. The advantage of this protocol is its simple catalytic system with use of inexpensive and readily available NiCl2·6H2O as a catalyst.展开更多
基金supported by the National Key R&D Program of China(no.2018YFA0108300)the Overseas High-level Talents Plan of China and Guangdong Province,the Fundamental Research Funds for the Central Universities+2 种基金the Program for Guangdong Introducing Innovative and Entrepreneurial Teams(no.2017Z T07C069)Local Innovative and Research Teams Project of Guangdong Pearl River Talents Program(no.2017BT01C161)the NSFC Projects(nos.22075321,21821003,21890380,and 21905315).
文摘Fluorinated organic compounds are of great importance to modern industries,while their release to the environment is inevitable,causing extreme environmental pollution and the subsequent hazardous effect on ecosystems.This is because the degradation of fluorinated compounds under mild conditions remains a challenging task due to the strong C-F bond strength.In this study,we report preparation of PdRu@MIL-101 through immobilizing ultrafine PdRu alloy nanoparticles with a mean diameter of∼2 nminto the metal-organic framework(MOF),MIL-101(Cr),which was highly active and stable in the hydrodefluorination of 4-fluorophenol(4-FP)under mild aqueous conditions.The optimized catalyst Pd0.5Ru0.5@MIL-101 achieved impressive hydrogenation performance with a 98.5% conversion of 4-FP and a 97.7% selectivity of cyclohexanol,much better than the single metal-doped Pd@MIL-101 and Ru@MIL-101 catalysts.The excellent catalytic behavior contributed to the synergistic effect of combining the PdRu alloying effect and the MOF nanospace confinement effect,providing a promising strategy to develop highly efficient hydrodefluorination catalysts to assist environmental restoration and green ecology.
文摘An effective and facile method for preparation of partially fluorinated aromatics via Nickel catalyzed, chelation-assisted ortho selective hydrodefluorination of polyfluoroames with triethylsilane has been developed, in which N-containing heterocycles were used as directing groups. The advantage of this protocol is its simple catalytic system with use of inexpensive and readily available NiCl2·6H2O as a catalyst.
