Rhenium-Metalated Polypyridine-Based Porous Polycarbazoles for Visible-Light CO<sub>2</sub> Photoreduction

Abstract

Transformation of CO2 into valuable chemicals and especially fuels is deemed as a promising approach to reduce our dependence on fossil fuels and to alleviate climate change. Carbazole-based porous polymers bearing rhenium-metalated polypyridine functionalities were constructed via simple oxidative coupling reaction. These porous polymers are employed as heterogeneous supports for immobilization of catalytically active rhenium complexes and furthermore provide high CO2 adsorption capabilities and light absorption abilities, i.e., photosensitizing properties. Consequently, such rhenium-metalated microporous polycarbazole networks show high efficiencies for CO2 photoreduction upon visible-light irradiation, with a CO evolution rate up to 623 μmol g–1 h–1 and selectivity of 97.8%. The microporous solid photocatalyst shows enhanced stability and photocatalytic performance compared to the molecular catalysts during long-term use.

References

Page 1

	Year	Citations
Reporting physisorption data for gas/solid systems with special reference to the determination of surface area and porosity (Recommendations 1984) K. S. W. Sing Pure and Applied Chemistry Chemical EngineeringSurface AreaRecommendations 1984EngineeringEnvironmental Engineering	1985	23.7K
Photoelectrocatalytic reduction of carbon dioxide in aqueous suspensions of semiconductor powders Tooru Inoue, Akira Fujishima, Satoshi Konishi, Nature Materials ScienceCarbon DioxideChemical EngineeringEngineeringPhotochemistry	1979	2.8K
Doping Metal–Organic Frameworks for Water Oxidation, Carbon Dioxide Reduction, and Organic Photocatalysis Cheng Wang, Zhigang Xie, Kathryn E. deKrafft, Journal of the American Chemical Society EngineeringInorganic PhotochemistryOrganic ChemistryChemistryPhotoelectrochemistry	2011	1.5K
Visible-Light Photoreduction of CO<sub>2</sub> in a Metal–Organic Framework: Boosting Electron–Hole Separation via Electron Trap States Hai-Qun Xu, Jiahua Hu, Dengke Wang, Journal of the American Chemical Society Chemical EngineeringEngineeringPhotoredox ProcessPhotochemistryInorganic Photochemistry	2015	1.1K
Porous Organic Polymers in Catalysis: Opportunities and Challenges Parminder Kaur, Joseph T. Hupp, SonBinh T. Nguyen ACS Catalysis Chemical EngineeringPop-based CatalysisEngineeringNanoporous MaterialPorous Organic Polymers	2011	914
Tunable Organic Photocatalysts for Visible-Light-Driven Hydrogen Evolution Reiner Sebastian Sprick, Jia‐Xing Jiang, Baltasar Bonillo, Journal of the American Chemical Society EngineeringSynthetic PhotochemistryPhoto-electrochemical CellChemistryPhotoelectrochemistry	2015	874
Efficient Visible‐Light‐Driven Carbon Dioxide Reduction by a Single‐Atom Implanted Metal–Organic Framework Huabin Zhang, Jing Wei, Juncai Dong, Angewandte Chemie International Edition	2016	738
Selective Molecular Sieving in Self‐Standing Porous Covalent‐Organic‐Framework Membranes Sharath Kandambeth, Bishnu P. Biswal, Harshal D. Chaudhari, Advanced Materials	2016	706
Microporous Polycarbazole with High Specific Surface Area for Gas Storage and Separation Qi Chen, Min Luo, Peter Hammershøj, Journal of the American Chemical Society	2012	701
Visible‐Light‐Driven Hydrogen Evolution Using Planarized Conjugated Polymer Photocatalysts Reiner Sebastian Sprick, Baltasar Bonillo, Rob Clowes, Angewandte Chemie International Edition	2015	460

Page 1