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Literature DB >> 29920897

Iron Porphyrins Embedded into a Supramolecular Porous Organic Cage for Electrochemical CO₂ Reduction in Water.

Peter T Smith¹, Bahiru Punja Benke², Zhi Cao¹, Younghoon Kim³, Eva M Nichols¹, Kimoon Kim^2,3, Christopher J Chang^1,4.

Abstract

A porous organic cage composed of six iron tetraphenylporphyrins was used as a supramolecular catalyst for electrochemical CO2 -to-CO conversion. This strategy enhances active site exposure and substrate diffusion relative to the monomeric catalyst, resulting in CO generation with near-quantitative Faradaic efficiency in pH 7.3 water, with activities reaching 55 250 turnovers. These results provide a starting point for the design of supramolecular catalysts that can exploit the properties of the surrounding matrix yet retain the tunability of the original molecular unit.

Entities: Chemical

Keywords: CO2 reduction; electrochemistry; porous organic cages; porphyrins; supramolecular chemistry

Year: 2018 PMID： 29920897 DOI： 10.1002/anie.201803873

Source DB: PubMed Journal: Angew Chem Int Ed Engl ISSN： 1433-7851 Impact factor: 15.336

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Cited

6 in total

1. Electro- and Solar-Driven Fuel Synthesis with First Row Transition Metal Complexes.

Authors: Kristian E Dalle; Julien Warnan; Jane J Leung; Bertrand Reuillard; Isabell S Karmel; Erwin Reisner
Journal: Chem Rev Date: 2019-02-15 Impact factor: 60.622

2. Visible-light-switched electron transfer over single porphyrin-metal atom center for highly selective electroreduction of carbon dioxide.

Authors: Deren Yang; Hongde Yu; Ting He; Shouwei Zuo; Xiaozhi Liu; Haozhou Yang; Bing Ni; Haoyi Li; Lin Gu; Dong Wang; Xun Wang
Journal: Nat Commun Date: 2019-08-26 Impact factor: 14.919

Iron Porphyrins Embedded into a Supramolecular Porous Organic Cage for Electrochemical CO₂ Reduction in Water.

1. Electro- and Solar-Driven Fuel Synthesis with First Row Transition Metal Complexes.

2. Visible-light-switched electron transfer over single porphyrin-metal atom center for highly selective electroreduction of carbon dioxide.

3. Organic transformations in the confined space of porous organic cage CC2; catalysis or inhibition.

4. Post-Synthetic Modification of a Porous Hydrocarbon Cage to Give a Discrete Co₂₄ Organometallic Complex.

5. Chaperone-like chiral cages for catalyzing enantio-selective supramolecular polymerization.

6. Accelerating Crystallization of Open Organic Materials by Poly(ionic liquid)s.

Iron Porphyrins Embedded into a Supramolecular Porous Organic Cage for Electrochemical CO2 Reduction in Water.

1. Electro- and Solar-Driven Fuel Synthesis with First Row Transition Metal Complexes.

2. Visible-light-switched electron transfer over single porphyrin-metal atom center for highly selective electroreduction of carbon dioxide.

3. Organic transformations in the confined space of porous organic cage CC2; catalysis or inhibition.

4. Post-Synthetic Modification of a Porous Hydrocarbon Cage to Give a Discrete Co24 Organometallic Complex.

5. Chaperone-like chiral cages for catalyzing enantio-selective supramolecular polymerization.

6. Accelerating Crystallization of Open Organic Materials by Poly(ionic liquid)s.

Iron Porphyrins Embedded into a Supramolecular Porous Organic Cage for Electrochemical CO₂ Reduction in Water.

4. Post-Synthetic Modification of a Porous Hydrocarbon Cage to Give a Discrete Co₂₄ Organometallic Complex.