Yiming Wang scite author profile

N-Heterocyclic Olefin (NHO) with high electronegativity at the terminal carbon atom was found to show a strong tendency for CO2 sequestration, affording a CO2 adduct (NHO-CO2). X-ray single crystal analysis revealed the bent geometry of the binding CO2 in the NHO-CO2 adducts with an O-C-O angle of 127.7-129.9°, dependent on the substitute groups of N-heterocyclic ring. The length of the C(carboxylate)-C(NHO) bond is in the range of 1.55-1.57 Å, significantly longer than that of the C(carboxylate)-C(NHC) bond (1.52-1.53 Å) of the previously reported NHC-CO2 adducts. The FTIR study by monitoring the ν(CO2) region of transmittance change demonstrated that the decarboxylation of NHO-CO2 adducts is easier than that of the corresponding NHC-CO2 adducts. Notably, the NHO-CO2 adducts were found to be highly active in catalyzing the carboxylative cyclization of CO2 and propargylic alcohols at mild conditions (even at ambient temperature and 0.1 MPa CO2 pressure), selectively giving α-alkylidene cyclic carbonates in good yields. The catalytic activity is about 10-200 times that of the corresponding NHC-CO2 adducts at the same conditions. Two reaction paths regarding the hydrogen at the alkenyl position of cyclic carbonates coming from substrate (path A) or both substrate and catalyst (path B) were proposed on the basis of deuterium labeling experiments. The high activity of NHO-CO2 adduct was tentatively ascribed to its low stability for easily releasing the CO2 moiety and/or the desired product, a possible rate-limiting step in the catalytic cycle.

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N-Heterocyclic carbene functionalized MCM-41 as an efficient catalyst for chemical fixation of carbon dioxide

Zhou

et al. 2011

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An efficient, soluble, and recyclable multiwalled carbon nanotubes-supported TEMPO for oxidation of alcohols

et al. 2012

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The immobilization of homogeneous catalysts is a continuing goal for combining the advantages of both homogeneous and heterogeneous catalysis. However, a significant loss in catalytic activity is often found in the immobilization of a homogeneous catalyst. Herein, we report a novel strategy consisting of multiwalled carbon nanotubes (MWNTs) functionalized with homogeneous catalysts that are developed to combine the positive aspects of solid and soluble supports. Using the oxidation of alcohols as a model reaction, the supported catalysts (MWNTs-TEMPO) can be homogeneously dispersed in the reaction medium to conquer the mass transfer limitation, which leads to their catalytic activity being far superior to their heterogeneous counterpart and similar to their parent catalysts. In addition, they exhibit the additional advantages of characterization with solution-based techniques, easy separation and reutilization.

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Yiming Wang

Fast CO₂ Sequestration, Activation, and Catalytic Transformation Using N-Heterocyclic Olefins

N-Heterocyclic carbene functionalized MCM-41 as an efficient catalyst for chemical fixation of carbon dioxide

An efficient, soluble, and recyclable multiwalled carbon nanotubes-supported TEMPO for oxidation of alcohols

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Yiming Wang

Fast CO2 Sequestration, Activation, and Catalytic Transformation Using N-Heterocyclic Olefins

N-Heterocyclic carbene functionalized MCM-41 as an efficient catalyst for chemical fixation of carbon dioxide

An efficient, soluble, and recyclable multiwalled carbon nanotubes-supported TEMPO for oxidation of alcohols

Contact Info

Product

Resources

About

Fast CO₂ Sequestration, Activation, and Catalytic Transformation Using N-Heterocyclic Olefins