Tunable Photodynamic Switching of DArE@PAF-1 for Carbon Capture

Jun 22, 2015·
R. Lyndon
,
K. Konstas
,
R. A. Evans
,
D. J. Keddie
,
M. R. Hill
Prof. Dr. Bradley P. Ladewig
Prof. Dr. Bradley P. Ladewig
· 0 min read
Abstract
A new type of photodynamic carbon capture material with up to 26 wt% CO2 desorption capacity is synthesized via incorporation of diarylethene (DArE) as guest molecules in porous aromatic framework-1 (PAF-1). In these host–guest complexes, the carboxylic acid groups featured in DArE allow multiple noncovalent interactions to exist. DArE loadings ranging from 1 to 50 wt% are incorporated in PAF-1 and the complexes characterized by UV–vis spectroscopy, FT-IR spectroscopy, CO2, and N2 adsorption. Successful inclusion of DArE in PAF-1 is indicated by the reduction of pore size distributions and an optimum loading of 5 wt% is determined by comparing the percentage photo­response and CO2 uptake capacity at 1 bar. Mechanistic studies suggest that photoswitching modulates the binding affinity between DArE and CO2 toward the host, triggering carbon capture and release. This is the first known example of photodynamic carbon capture and release in a PAF.
Type
Publication
Advanced Functional Materials