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Pipette-tip kapok fiber-based solid-phase extraction/in-situ derivatization for the rapid and green analysis of furfural compounds Journal article
Li, Xiangyu, Qin, Qian, Luo, Yanbo, Pang, Yongqiang, Wei, Jinchao, Jiang, Xingyi, Chen, Di. Pipette-tip kapok fiber-based solid-phase extraction/in-situ derivatization for the rapid and green analysis of furfural compounds[J]. Food Chemistry: X, 2024, 24, 101795.
Authors:  Li, Xiangyu;  Qin, Qian;  Luo, Yanbo;  Pang, Yongqiang;  Wei, Jinchao; et al.
Favorite | TC[WOS]:0 TC[Scopus]:0  IF:6.5/6.4 | Submit date:2024/10/10
Analytical Method  Food Safety And Quality Control  Furfural Compounds  Hplc-uv  In-situ Derivatization  Kapok Fiber  Pipette-tip Solid-phase Extraction  
In-situ Reconstruction of Catalyst in Electrocatalysis Review article
2024
Authors:  Feng, Jinxian;  Wang, Xuesen;  Pan, Hui
Favorite | TC[WOS]:0 TC[Scopus]:0  IF:27.4/30.2 | Submit date:2024/11/05
Electrocatalysis  Energy Conversion  In-situ Reconstruction  Rationally Control  Surface Structure  
In Situ Colonization of Trojan-Yeast for Targeted Glucose Starvation and Reconstruction of Tumor Immune Environment Journal article
Qian Cheng, Xingping Quan, Ruifeng Luo, Zhiqing Yang, Junyan Li, Ziyi Wang, Yonghua Zhao, Chunhai Fan, Ruibing Wang. In Situ Colonization of Trojan-Yeast for Targeted Glucose Starvation and Reconstruction of Tumor Immune Environment[J]. Advanced Functional Materials, 2024, 34(34), 2316701.
Authors:  Qian Cheng;  Xingping Quan;  Ruifeng Luo;  Zhiqing Yang;  Junyan Li; et al.
Favorite | TC[WOS]:0 TC[Scopus]:1  IF:18.5/19.6 | Submit date:2024/08/03
Cancer Immunomodulation  Glucose Starvation  In Situ Colonization  Targeted Accumulation  Yeast  
Manipulating adsorbate configurations in copper electroplated low aspect-ratio via fill in redistribution layers Journal article
Peng, Zhen Jia, Li, Zhe, Jiao, Yu, Zhang, Ning, Zhang, Qi, Zhou, Binbin, Gao, Li Yin, Fu, Xian Zhu, Liu, Zhi Quan, Sun, Rong. Manipulating adsorbate configurations in copper electroplated low aspect-ratio via fill in redistribution layers[J]. Nano Materials Science, 2024.
Authors:  Peng, Zhen Jia;  Li, Zhe;  Jiao, Yu;  Zhang, Ning;  Zhang, Qi; et al.
Favorite | TC[Scopus]:0  IF:12.6/12.4 | Submit date:2024/08/05
Additive Ad/desorption And Interactions  Copper Interconnect Electroplating  In Situ Raman Spectroelectrochemistry  Low Aspect-ratio Via Fill  Quantum Chemical Computation  
In-situ monitoring of additive friction stir deposition of AA6061: Effect of rotation speed on the microstructure and mechanical properties Journal article
Qiao, Q., Wang, L., Tam, C. W., Gong, X., Dong, X., Lin, Y., Lam, W. I., Qian, H., Guo, D., Zhang, D., Kwok, C. T., Tam, L. M.. In-situ monitoring of additive friction stir deposition of AA6061: Effect of rotation speed on the microstructure and mechanical properties[J]. Materials Science and Engineering: A, 2024, 902, 146620.
Authors:  Qiao, Q.;  Wang, L.;  Tam, C. W.;  Gong, X.;  Dong, X.; et al.
Favorite | TC[WOS]:2 TC[Scopus]:2  IF:6.1/6.2 | Submit date:2024/06/05
Additive Friction Stir Deposition (Afsd)  In-situ Monitoring  Mechanical Properties  Microstructure  Rotation Speed  
In-situ monitoring of additive friction stir deposition of AA6061: Effect of layer thickness on the microstructure and mechanical properties Journal article
Qiao, Q., Zhou, M., Gong, X., Jiang, S., Lin, Y., Wang, H., Lam, W. I., Qian, H., Guo, D., Zhang, D., Kwok, C. T., Li, X., Tam, L. M.. In-situ monitoring of additive friction stir deposition of AA6061: Effect of layer thickness on the microstructure and mechanical properties[J]. Additive Manufacturing, 2024, 84, 104141.
Authors:  Qiao, Q.;  Zhou, M.;  Gong, X.;  Jiang, S.;  Lin, Y.; et al.
Favorite | TC[WOS]:5 TC[Scopus]:7  IF:10.3/12.4 | Submit date:2024/05/16
Additive Friction Stir Deposition (Afsd)  In-situ Monitoring  Mechanical Properties  Microstructure  Texture  
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  
Revealing the vertical structure of in-situ fabricated perovskite nanocrystals films toward efficient pure red light-emitting diodes Journal article
Wu, Xian gang, Sun, Shipei, Song, Tinglu, Zhang, Xin, Wang, Chenhui, Yang, Yingguo, Wang, Shuangpeng, Zhong, Haizheng. Revealing the vertical structure of in-situ fabricated perovskite nanocrystals films toward efficient pure red light-emitting diodes[J]. Fundamental Research, 2024, 4(2), 362-368.
Authors:  Wu, Xian gang;  Sun, Shipei;  Song, Tinglu;  Zhang, Xin;  Wang, Chenhui; et al.
Favorite | TC[WOS]:3 TC[Scopus]:3  IF:5.7/5.7 | Submit date:2022/08/05
Light-emitting Diodes  Perovskite  Tof-sims  Vertical Structure  In-situ Fabrication  
In Situ Hydrolysis of Phosphate Enabling Sky-Blue Perovskite Light-Emitting Diode with EQE Approaching 16.32% Journal article
Li, Yu Han, Xia, Yu, Zhang, Zhipeng, Wang, Bin, Jin, Run Jun, Chen, Chun Hao, Chen, Jing, Wang, Kai Li, Xing, Guichuan, Wang, Zhao Kui, Liao, Liang Sheng. In Situ Hydrolysis of Phosphate Enabling Sky-Blue Perovskite Light-Emitting Diode with EQE Approaching 16.32%[J]. ACS NANO, 2024, 18(8), 6513-6522.
Authors:  Li, Yu Han;  Xia, Yu;  Zhang, Zhipeng;  Wang, Bin;  Jin, Run Jun; et al.
Favorite | TC[WOS]:9 TC[Scopus]:10  IF:15.8/16.2 | Submit date:2024/05/16
In Situ Hydrolysis  Low-dimensional Phase  Perovskite Light-emitting Diodes  Phosphate  Sky-blue Emission  
An in-situ online method for extracting Seebeck coefficient of thermopile infrared sensors across a wide temperature range (300–600 K) Journal article
Tang, Liqiang, Fu, Jianyu, Chen, Yong, Yuan, Tianhui, Hou, Ying, Chen, Dapeng. An in-situ online method for extracting Seebeck coefficient of thermopile infrared sensors across a wide temperature range (300–600 K)[J]. Measurement: Journal of the International Measurement Confederation, 2024, 226, 114101.
Authors:  Tang, Liqiang;  Fu, Jianyu;  Chen, Yong;  Yuan, Tianhui;  Hou, Ying; et al.
Favorite | TC[WOS]:0 TC[Scopus]:1  IF:5.2/4.8 | Submit date:2024/02/22
a Wide Temperature Range  In-situ Online Test  Seebeck Coefficients  Thermopile Infrared (Ir) Sensor