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Carbon Dots-Inked Paper with Single/Two-Photon Excited Dual-Mode Thermochromic Afterglow for Advanced Dynamic Information Encryption Journal article
Liu, Yupeng, Cheng, Dengke, Wang, Bingzhe, Yang, Junxiang, Hao, Yiming, Tan, Jing, Li, Qijun, Qu, Songnan. Carbon Dots-Inked Paper with Single/Two-Photon Excited Dual-Mode Thermochromic Afterglow for Advanced Dynamic Information Encryption[J]. Advanced Materials, 2024, 36, 2401775.
Authors:  Liu, Yupeng;  Cheng, Dengke;  Wang, Bingzhe;  Yang, Junxiang;  Hao, Yiming; et al.
Favorite | TC[WOS]:9 TC[Scopus]:19  IF:27.4/30.2 | Submit date:2024/06/05
Carbon Dots  Information Encryption  Room Temperature Phosphorescence  Thermally Activated Delayed Fluorescence  Thermochromic Afterglow  
Breakthrough in Achieving the Longest Room-Temperature Red Afterglow at 600 nm in Solution via Resonance Energy Transfer between Carbon Dots-Zeolite Composites and Rhodamine B Conference paper
Jiayi Dong, ZHENG WENHUA. Breakthrough in Achieving the Longest Room-Temperature Red Afterglow at 600 nm in Solution via Resonance Energy Transfer between Carbon Dots-Zeolite Composites and Rhodamine B[C], 2024.
Authors:  Jiayi Dong;  ZHENG WENHUA
Favorite |  | Submit date:2024/08/31
Carbon Dots, Zeolite, Phosphorescent, Afterglow, Fret.  
Rechargeable Afterglow Nanotorches for In Vivo Tracing of Cell-Based Microrobots Journal article
Ma, Gongcheng, Dirak, Musa, Liu, Zhongke, Jiang, Daoyong, Wang, Yue, Xiang, Chunbai, Zhang, Yuding, Luo, Yuan, Gong, Ping, Cai, Lintao, Kolemen, Safacan, Zhang, Pengfei. Rechargeable Afterglow Nanotorches for In Vivo Tracing of Cell-Based Microrobots[J]. ANGEWANDTE CHEMIE-INTERNATIONAL EDITION, 2024, 63(18), e202400658.
Authors:  Ma, Gongcheng;  Dirak, Musa;  Liu, Zhongke;  Jiang, Daoyong;  Wang, Yue; et al.
Favorite | TC[WOS]:1 TC[Scopus]:4  IF:16.1/16.2 | Submit date:2024/05/02
Afterglow  Aggregation-induced Emission  Cell-based Microrobot  Chemiluminescence  Photosensitizer  
Direct in Situ Fabrication of Multicolor Afterglow Carbon Dot Patterns with Transparent and Traceless Features via Laser Direct Writing Journal article
Li, Qijun, Zhao, Hongjia, Yang, Daiqi, Meng, Shuai, Gu, Hailing, Xiao, Chi, Li, Yi, Cheng, Dengke, Qu, Songnan, Zeng, Haibo, Zhu, Xingwang, Tan, Jing, Ding, Jianning. Direct in Situ Fabrication of Multicolor Afterglow Carbon Dot Patterns with Transparent and Traceless Features via Laser Direct Writing[J]. Nano Letters, 2024, 24(10), 3028-3035.
Authors:  Li, Qijun;  Zhao, Hongjia;  Yang, Daiqi;  Meng, Shuai;  Gu, Hailing; et al.
Favorite | TC[WOS]:8 TC[Scopus]:8  IF:9.6/10.1 | Submit date:2024/04/02
Carbon Dots  In Situ  Laser Direct Writing  Multicolor Afterglow  Patterns  
Time-Dependent and Excitation-Dependent Afterglow Color Evolution from the Assembly of Dual Carbon Dots in Zeolite Journal article
Zong, Siyu, Zhang, Jiani, Yin, Xin, Li, Jiyang, Qu, Songnan. Time-Dependent and Excitation-Dependent Afterglow Color Evolution from the Assembly of Dual Carbon Dots in Zeolite[J]. Nano Letters, 2024, 24(6), 1859-1866.
Authors:  Zong, Siyu;  Zhang, Jiani;  Yin, Xin;  Li, Jiyang;  Qu, Songnan
Favorite | TC[WOS]:6 TC[Scopus]:6  IF:9.6/10.1 | Submit date:2024/03/07
Anticounterfeiting  Carbon Dots  Host−guest Assembly  Time-dependent Afterglow Colors  Zeolite  
Persistent Charging of CsPbBr3 Perovskite Nanocrystals Confined in Glass Matrix Journal article
Wang, Gang, Yang, Bobo, Mei, Shiliang, Wang, Bingzhe, Zhang, Zhipeng, Mao, Yulin, Guo, Jia, Ma, Guohong, Guo, Ruiqian, Xing, Guichuan. Persistent Charging of CsPbBr3 Perovskite Nanocrystals Confined in Glass Matrix[J]. Small, 2023, 20(18), 2307785.
Authors:  Wang, Gang;  Yang, Bobo;  Mei, Shiliang;  Wang, Bingzhe;  Zhang, Zhipeng; et al.
Favorite | TC[WOS]:4 TC[Scopus]:3  IF:13.0/13.5 | Submit date:2024/02/22
Afterglow  Charged Exciton  Information Storage  Perovskite Nanocrystal  Persistent Charge  
Phosphorescent Carbon-Nanodots-Assisted Förster Resonant Energy Transfer for Achieving Red Afterglow in an Aqueous Solution Journal article
Liang, Y.C., Cao, Q., Liu, K.K., Peng, X.Y., Sui, L.Z., Wang, S., Song, S.Y., Wu, X.Y., Zhao, W.B., Deng, Y., Lou, Q., Dong, L., Shan, C.X.. Phosphorescent Carbon-Nanodots-Assisted Förster Resonant Energy Transfer for Achieving Red Afterglow in an Aqueous Solution[J]. ACS Nano, 2021, 16242-16254.
Authors:  Liang, Y.C.;  Cao, Q.;  Liu, K.K.;  Peng, X.Y.;  Sui, L.Z.; et al.
Favorite |   IF:15.8/16.2 | Submit date:2022/08/31
carbon nanodots  phosphorescence  red afterglow  Förster resonant energy transfer  bioimaging  
Phosphorescent Carbon-Nanodots-Assisted Förster Resonant Energy Transfer for Achieving Red Afterglow in an Aqueous Solution Journal article
Liang, Ya Chuan, Cao, Qing, Liu, Kai Kai, Peng, Xue Yuan, Sui, Lai Zhi, Wang, Shuang Peng, Song, Shi Yu, Wu, Xue Ying, Zhao, Wen Bo, Deng, Yuan, Lou, Qing, Dong, Lin, Shan, Chong Xin. Phosphorescent Carbon-Nanodots-Assisted Förster Resonant Energy Transfer for Achieving Red Afterglow in an Aqueous Solution[J]. ACS Nano, 2021, 15(10), 16242-16254.
Authors:  Liang, Ya Chuan;  Cao, Qing;  Liu, Kai Kai;  Peng, Xue Yuan;  Sui, Lai Zhi; et al.
Favorite | TC[WOS]:112 TC[Scopus]:129  IF:15.8/16.2 | Submit date:2021/12/08
Bioimaging  Carbon Nanodots  Förster Resonant Energy Transfer  Phosphorescence  Red Afterglow  
Characterization of afterglow-related spectroscopic effects in vacuum sintered Tb 3+ , Sr 2+ co-doped Lu 2 O 3 ceramics Journal article
Chen S., Yang Y., Zhou G., Wu Y., Liu P., Zhang F., Wang S., Trojan-Piegza J., Zych E.. Characterization of afterglow-related spectroscopic effects in vacuum sintered Tb 3+ , Sr 2+ co-doped Lu 2 O 3 ceramics[J]. OPTICAL MATERIALS, 2012, 35(2), 240-243.
Authors:  Chen S.;  Yang Y.;  Zhou G.;  Wu Y.;  Liu P.; et al.
Favorite | TC[WOS]:11 TC[Scopus]:15  IF:3.8/3.5 | Submit date:2019/04/08
Afterglow  Lutetium Oxide  Photostimulated Luminescence