5 Papers
Huan Wang is an academic researcher from Baoji University of Arts and Sciences. The author has contributed to research in topics: Chemistry & Photosensitizer. The author has an hindex of 1, co-authored 1 publications.
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Papers
Analysis of the main active ingredients and bioactivities of essential oil from Osmanthus fragrans Var. thunbergii using a complex network approach.
TL;DR: This work predicted the main active ingredients and bioactivities of O. thunbergii essential oil, which would benefit the development and utilization of Osmanthus fragrans flowers and provides a novel strategy for exploring the molecular mechanisms of traditional medicines.
Restricting Bond Rotations by Ring Fusion: A Novel Molecular Design Strategy to Improve Photodynamic Antibacterial Efficacy of AIE Photosensitizers.
TL;DR: Wang et al. as discussed by the authors proposed that if the rotation of some bonds in AIE-PSs is restricted, the nonradiative decay could be further suppressed to boost the generation of fluorescence and ROS, so as to improve their antibacterial efficacy.
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An AIE photosensitizer with unquenched fluorescence based on nitrobenzoic acid for tumor-targeting and image-guided photodynamic therapy.
TL;DR: Biotin-TTVBA is developed, a tumor-targeting aggregation-induced emission photosensitizer (AIE-PS), by binding TTVBA (a nitrobenzoic acid-based AIE-PS with a free carboxylic acid group) to biotin, resulting in enhanced antitumor activity against tumor cells and a decreased IC50 value.
10
An intelligent photosensitizer that selectively kills Gram-positive pathogenic cocci while preventing harm to beneficial bacilli
TL;DR: A negatively charged photosensitizer TPA-3NBA with aggregation-induced emission (AIE) characteristics was synthesized by one-step reaction, which was selectively and rapidly stain (within 0.5 min) and effectively kill Gram-positive cocci (killing 6.0 log 10 of Staphylococcus aureus at a concentration of 1 μM) without affecting bacilli under white light irradiation as discussed by the authors .
7
Molecular engineering to red-shift the absorption band of AIE photosensitizers and improve their ROS generation ability.
Yuhui Zhang,Xiaohong Pan,Hai-Gang Shi,Yaqi Wang,Wenzhen Liu,Liangzhi Cai,Le Wang,Huan Wang,Zhu Chen +8 more
TL;DR: Wang et al. as mentioned in this paper showed that increasing the number of acceptors is more effective at red-shifting the absorption band of AIE-PSs than increasing number of donors, and extending the π-conjugation of acceptor will red-shift the absorption-emission band, increase the maximum molar extinction coefficient, and improve the ROS generation ability.