Affiliation:
1. Department of Chemistry and Molecular Biology University of Gothenburg Gothenburg SE‐413 90 Sweden
2. Centre for Analysis and Synthesis Department of Chemistry Lund University Lund SE‐221 00 Sweden
Abstract
AbstractThe first example of a material capable of spatiotemporal catch and release of singlet oxygen (1O2) in gel phase is presented. Several low molecular weight organogelators based around an oxotriphenylhexanoate (OTHO) core are developed and optimized with regard to; their gelation properties, and ability of releasing 1O2 upon thermal and/or photochemical external stimuli, in both gel phase and solution. Remarkably, reversible phase transitioning between the gel and solution phase are also demonstrated. Taken together two complementary modes of releasing 1O2, one thermally controlled over time, and one rapid release by means of photochemical stimuli is disclosed. These findings represent the first phase reversible system where function and aggregation properties can be controlled independently, and thus pave the way for novel applications in material sciences as well as in life sciences.
Funder
Olle Engkvists Stiftelse
Stiftelsen Sigurd and Elsa Goljes Minne
Wenner-Gren Stiftelserna
Vetenskapsrådet
HORIZON EUROPE European Research Council
Adlerbertska Research Foundation