Huangting Ding
5 Papers
Huangting Ding is an academic researcher. The author has contributed to research in topics: Chemistry & Medicine. The author has an hindex of 1, co-authored 4 publications.
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Papers
Time-dependent photo-activated aminoborane room-temperature phosphorescence materials with unprecedented properties: simple, versatile, multicolor-tuneable, water resistance, optical information writing/erasing, and multilevel data encryption
Huangting Ding,Yitong Sun,Meng Tang,Jingyi Wen,Shiwen Yue,Ye Peng,Fei Li,Liyan Zheng,Suning Wang,Yonggang Shi,Qiu-e Cao +10 more
TL;DR: In this article , the first photo-activated RTP materials with lifetime/quantum yields ≤ 0.18 s/6.83% based on donor (D)π-acceptor (A) from methylene carbazole-functionalized aminoborane (BN)-doped polymethyl methacrylate (BN-o-Met-Cz@PMMA) under 365 nm UV irradiation (30 s).
Multicolor Adjustable B-N Molecular Switches: Simple, Efficient, Portable, and Visual Identification of Butanol Isomers.
Yitong Sun,Huangting Ding,Meng Tang,Jingyi Wen,Shiwen Yue,Ye Peng,Liyan Zheng,Yonggang Shi,Qiue Cao +8 more
TL;DR: In this paper , the instability of the Lewis acid-base pair (boron (B) and nitrogen (N) was exploited to construct multicolor-tunable molecular switches with visual identification of butanol isomers.
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Organic Chameleon: Fluorescence, Phosphorescence and Radical Afterglow Triple Emission from Naphthylimide Functionalized Triphenylphosphine Derivatives
Meng Tang,Jingyi Wen,Yitong Sun,Qinggao Hou,Xueqi Cai,Wenjie He,Xuancai Xie,Huangting Ding,Fei Li,Liyan Zheng,Yonggang Shi,Qiue Cao +11 more
TL;DR: Organic chameleon luminescent material exhibits fluorescence, phosphorescence and radical afterglow triple emission, with multi-stimuli responsiveness to external pressure, temperature and water.
Simple Stimulus-Responsive Organic Long Persistent Luminescence Systems Based on Methoxy-Functionalized Triphenylphosphine.
Shiwen Yue,Huangting Ding,Yitong Sun,Meng Tang,Jingyi Wen,Ye Peng,Liyan Zheng,Feng Wang,Yonggang Shi,Qiue Cao +9 more
TL;DR: In this paper , a methoxy group (TPP-o-3OMe) at the ortho position of triphenylphosphine (TPP) can essentially promote the n → π* transition and promote intersystem crossing to generate more triplet excitons.