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

Peter T SmithBahiru Punja BenkeZhi CaoYounghoon KimEva M NicholsKimoon Kim Christopher J Chang

Published in: Angewandte Chemie (International ed. in English) (2018)

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.

Keyphrases

water soluble
metal organic framework
highly efficient
ionic liquid
gold nanoparticles
energy transfer
room temperature
reduced graphene oxide
molecularly imprinted
label free
iron deficiency
high resolution
visible light
mass spectrometry
amino acid
quantum dots