李伸傑,畢業於長春理工大學化學工程與工藝專業,主要研究領域、方向為透明導電薄膜的製備與性能研究。
教師簡介: | ||
姓名 | 李伸傑 | |
職稱 | 博士/講師/碩士生導師 | |
職務 | ||
部門 | 化學化工教研室 | |
個人簡歷: | ||
2011.09—2014.07中國科學院長春套用化學研究所 無機化學 博士 2008.09—2011.04長春理工大學 套用化學 碩士 2004.08—2008.07長春理工大學 化學工程與工藝 學士 | ||
主要研究領域、方向: | ||
透明導電薄膜的製備與性能研究 | ||
著作論文(代表作):
1. Shenjie Li,Yanyan Chen, Lijian Huang and Daocheng Pan. Simple continuous-flow synthesis of Cu–In–Zn–S/ZnS and Ag–In–Zn–S/ZnS core/shell quantum dots. Nanotechnology. 2013, 24, 395705.
2. Shenjie Li,Yanyan Chen, Lijian Huang and Daocheng Pan.Large-Scale Synthesis of Well-Dispersed Copper Nanowires in an Electric Pressure Cooker and Their application in Transparent and Conductive Networks. Inorganic Chemistry, 2014, 53(9), 4440-4444.
3. Shenjie Li, Zechen Zhao, Qinghui Liu, Lijian Huang, Gang Wang, Daocheng Pan, Hongjie Zhang and Xingquan He. Alloyed (ZnSe)x(CuInSe2)1-xand CuInSexS2-xNanocrystals with a Monophase Zinc Blende Structure overtheEntire Composition Range. Inorganic Chemistry, 2011, 50, 11958-11964.
4. Shenjie Li and Daocheng Pan. Cu2SnSe3and alloyed (ZnSe)x(Cu2SnSe3)1-xnanocrystals with a metastable zincblende and wurtzite structure. Journal of Crystal Growth, 2012, 358, 38-42.
5. Yanyan Chen,Shenjie Li, Lijian Huang and Dao cheng Pan. Green and Facile Synthesis of Water-Soluble Cu-In-S/ZnS Core/Shell Quantum Dots. Inorganic Chemistry, 2013, 52, 7819-7821.
6. Yanyan Chen, Shenjie Li, Lijian Huang and Dao cheng Pan. Low-Cost and Gram-Scale Synthesis of Water-Soluble Cu-In-S/ZnS Core/Shell Quantum Dots in an Electric Pressure Cooker. Nanoscale. 2014, 6, 1295-1298.
7. Yanyan Chen,Shenjie Li, Lijian Huang and Dao cheng Pan. Novel Au-doped ZnxCd1-xS/ZnS Core/shell Quantum Dots. Material research express. 2014, 1, 015033-015041.
8. Yanyan Chen, Lijian Huang, Shenjie Li and Dao cheng Pan. Aqueous synthesis of glutathione-capped Cu+ and Ag+-doped ZnxCd1-xS quantum dots with full color emission. Journal of Materials Chemistry C, 2013, 1, 751-756.
9. Yanyan Chen, Shenjie Li, Lijian Huang and Daocheng Pan. Single-step direct fabrication of luminescent Cu-doped ZnxCd1-xS quantum dot thin films via amolecular precursor solution approach and their application in luminescent, transparent, and conductive thin films. Nanoscale, 2014, 6, 9640-9645.
