Visible light activated energy storage in solid-state Azo-BF<sub>2</sub> switches
Qian‐Feng Qiu, Qingkai Qi, Junichi Usuba, Karina Lee, Ivan Aprahamian, Grace G. D. Han
Abstract
isomerization when in a compacted state. To address this challenge, we modified the switches with one or two aliphatic groups, which altered the intermolecular interactions and arrangement of the photochromes in the solid state. The derivative with two substituents exhibited a non-planar configuration that provided particularly large conformational freedom, allowing for efficient isomerization in the solid phase. Our discovery highlights the potential of using double aliphatic functionalization as a promising approach to facilitate solid-state switching of large aromatic photoswitches. This finding opens up new possibilities for exploring various photoswitch candidates for molecular solar thermal energy storage applications.