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Dibenzo[<i>b</i>,<i>f</i>][1,4,5]chalcogenadiazepine Photoswitches: Conversion of Excitation Energy into Ring Strain

Xin Shen, Cefei Zhang, Fengying Lan, Zhishan Su, Yuanqin Zheng, Tingting Zheng, Qin Xiong, Xinyu Xie, Guangxi Du, Xiaohu Zhao, Changwei Hu, Pengchi Deng, Zhipeng Yu

2022Angewandte Chemie International Edition23 citationsDOI

Abstract

Abstract Tetra‐ ortho ‐substituted, heteroaryl and cyclic azobenzenes have emerged as three key strategies on morphology design of photoswitch to diversify controllability. Cyclic azobenzene is of particular utilization in photo‐energy conversion due to rigid and ring‐strain structure. Despite the well‐recognized diazocine, the photo‐switching properties of seven‐membered cyclic azobenzenes (diazepines) have yet been exploited. Herein, we report a family of dibenzo[ b,f ][1,4,5]chalcogenadiazepines (DBChDs) and their T‐type photo‐switching nature with tunable relaxation rate. Based on experiments together with DFT calculations, we found that an unsymmetric 2‐bithiophenyl‐dibenzo[ b,f ][1,4,5]thiadiazepine exhibited an efficient response to 445 nm laser stimulation (quantum efficiency, Φ Z→E =0.71) with millisecond relaxation half‐life ( t 1/2 =40 ms). Photo‐energy transduction efficiency was also exceptionally high with 29.1 % converted into ring‐strain energy mainly loaded on azo π‐bond.

Topics & Concepts

Ring (chemistry)ExcitationStrain (injury)Ring strainPhysicsChemistryAtomic physicsQuantum mechanicsBiologyAnatomyOrganic chemistryPhotochromic and Fluorescence ChemistryPhotoreceptor and optogenetics researchMolecular Sensors and Ion Detection
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