Jia, Pei-Pei; Xu, Lin; Hu, Yi-Xiong; Li, Wei-Jian; Wang, Xu-Qing; Ling, Qing-Hui; Shi, Xueliang; Yin, Guang-Qiang; Li, Xiaopeng; Sun, Haitao; Jiang, Yanrong; Yang, Hai-Bo published an article in 2021. The article was titled 《Orthogonal Self-Assembly of a Two-Step Fluorescence-Resonance Energy Transfer System with Improved Photosensitization Efficiency and Photooxidation Activity》, and you may find the article in Journal of the American Chemical Society.Recommanded Product: 4-Ethynylpyridine The information in the text is summarized as follows:
During the past few decades, fabrication of multistep fluorescence-resonance energy transfer (FRET) systems has become one of the most attractive topics within supramol. chem., chem. biol., and materials science. However, it is challenging to efficiently prepare multistep FRET systems with precise control of the distances between locations and the numbers of fluorophores. Herein we present the successful fabrication of a two-step FRET system bearing specific numbers of anthracene, coumarin, and BODIPY moieties at precise distances and locations through an efficient and controllable orthogonal self-assembly approach based on metal-ligand coordination and host-guest interactions. Notably, the photosensitization efficiency and photooxidation activity of the two-step FRET system gradually increased with the number of energy transfer steps. For example, the two-step FRET system exhibited 1.5-fold higher 1O2 generation efficiency and 1.2-fold higher photooxidation activity than that of its corresponding one-step FRET system. This research not only provides the first successful example of the efficient preparation of multistep FRET systems through orthogonal self-assembly involving coordination and host-guest interactions but also pushes multistep FRET systems toward the application of photosensitized oxidation of a sulfur mustard simulant. The experimental process involved the reaction of 4-Ethynylpyridine(cas: 2510-22-7Recommanded Product: 4-Ethynylpyridine)
4-Ethynylpyridine(cas: 2510-22-7) belongs to pyridine. Pyridine is very deactivated towards electrophilic substitution with respect to benzene. For this reason classical formylation, using methods such as the Gattermann or Vilsmeier reactions, are not generally successful. Recommanded Product: 4-Ethynylpyridine