Abstract
The relationship between molecular configuration and charge transfer processes in near-infrared-II (NIR-II) chromophores was studied, and subsequently instructed the engineering of an efficient NIR photosensitizer (PS), as reported by Wenbo Hu, Yuliang Xiao et al. in their Research Article (e202214875). The resulting NIR-II PS not only enables NIR-II image-guided in vivo pulmonary coronavirus photo-ablation but also demonstrates a facile approach for the development of NIR heavy-atom-free PSs. The relationship between molecular configuration and charge transfer processes in near-infrared-II (NIR-II) chromophores was studied, and subsequently instructed the engineering of an efficient NIR photosensitizer (PS), as reported by Wenbo Hu, Yuliang Xiao et al. in their Research Article (e202214875). The resulting NIR-II PS not only enables NIR-II image-guided in vivo pulmonary coronavirus photo-ablation but also demonstrates a facile approach for the development of NIR heavy-atom-free PSs. Receptors Enzymes Hydrogen-Bonded Organic Frameworks Metallocenes
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