1. 国家863计划,“基于II-VI族半导体纳米结构的光电子器件研究”,2007AA03Z-301。
2. 国家教育部“新世纪优秀人才计划”,“无机化合物半导体功能纳米晶体的设计、控制生长、掺杂及物性研究 ”,NCET-04-0561。
3. 国家自然科学基金,“硫属化合物纳米结构与共轭聚合物的杂化体异质结 及其光伏特性研究”,20771032。
4. 国家自然科学基金“掺杂和多元非整比的宽禁带半导体化合物的合成反应,纳米晶体生长及发光性质的研究”,20571021。
5. 国家自然科学基金,“基于硫属化合物半导体量子点的新型结构光伏器件及能量转换机制的研究”,61076040。
6. 总装备部重点创新项目, “热电材料与器件研究”,7130703。
7. 国家973计划(子项目),“人工纳米生物机器的基本构件-人工纳米结构的制备与修饰”,2007CB9-36001。
8. 国家863计划“道路照明用智能化LED灯具光效和可靠性提升研发及示范”SS2013AA030114
9. 军工项目“轻质梯度铝硅合金电子封装材料研究与开发”
10. 高等学校博士学科专项研究基金(博士导师类):面向结构变化及参数调控的核壳量子点场效应器件及其输运特性研究,20120111110006。
11. 企业合作重大项目:稀土铝合金及其线材连续成形技术开发,2013
12. 江苏省高层次创新创业人才计划“双创计划”:高性能柴油发动机陶瓷电热塞的研究与开发。2012年度
论文、成果、著作等
| 1.Jiang, Y., Meng, X. M., Liu, J., Xie, Z. Y., Lee, C. S.and Lee, S. T., "Hydrogen-assisted thermal evaporation synthesis of ZnS nanoribbons on a large scale", Adv. Mater. 15(4)(2003), 被引用次数:276, 影响因子: 17.493.
2. Jiang, Y., Meng, X. M., Liu, J., Hong, Z. R., Lee, C. S.and Lee, S. T., "ZnS nanowires with wurtzite polytype modulated structure", Adv. Mater., 15(14)(2003),被引用次数:178, 影响因子: 17.493.
3. Jiang, Y., Zhang, W. J., Jie, J. S., Meng, X. M., Zapien, J.A.and Lee, S. T., "Homoepitaxial growth and lasing properties of ZnS nanowire and nanoribbon arrays", Adv. Mater., 18(12) (2006), 被引用次数:113, 影响因子: 17.493.
4.Jiang, Y., Wu, Y., Zhang, S. Y., Xu, C. Y., Yu, W. C., Xie, Y.and Qian, Y. T.,"A catalytic-assembly solvothermal route to multiwall carbon nanotubes at a moderate temperature", J. Am. Chem. Soc., 122(49)(2000), 被引用次数:174, 影响因子: 12.113.
5.Jiang, Y., Zhang, W. J., Jie, J. S., Meng, X. M., Fan, X.and Lee, S. T., "Photoresponse properties of CdSe single-nanoribbon photodetectors", Adv. Funct. Mater., 17(11)(2007), 被引用次数:136, 影响因子: 11.805.
6. Cao, B., Jiang, Y.*, Wang, C., Wang, W., Wang, L., Niu, M., Zhang, W., Li, Y.and Lee, S. T., "Synthesis and lasing properties of highly ordered CdS nanowire arrays", Adv. Funct. Mater., 17(9)(2007), 被引用次数:101, 影响因子: 11.805.
7.Chen, G., Yu, Y., Zheng, K., Ding, T., Wang, W., Jiang, Y.*, Yang, Q., "Fabrication of Ultrathin Bi2S3 Nanosheets for High-Performance, Flexible, Visible–NIR Photodetectors", Small, 2015, (2015), 影响因子: 8.368.
8. Chang, Y., Yao, X. Mi, L., Li, G., Wang, S., Wang, H., Zhang, Z., Jiang, Y.*, "A water–ethanol phase assisted co-precipitation approach toward high quality quantum dot–inorganic salt composites and their application for WLEDs", Green Chem., 17,4439-4415,(2015), 影响因子: 8.020.
9.Wang, H., Lan, X., Jiang, D., Zhang, Y., Zhong, H., Zhang, Z., Jiang, Y.*, "Sodium storage and transport properties in pyrolysis synthesized MoSe2 nanoplates for high performance sodium-ion batteries", J. Power Sources, 2015, 283, 187-194, (2015), 影响因子: 6.217.
10. Li G., Jiang D., Wang H., Lan X., Zhong H., Jiang, Y.*, "Glucose-assisted synthesis of Na3V 2(PO4)3/C composite as an electrode material for high-performance sodium-ion batteries", J. Power Sources,2014, 265: 325-334(2014), 影响因子: 6.217.
11.Yu, Y., Jie, J., Jiang, P., Wang, L., Wu, C., Peng, Q., Zhang, X., Wang, Z., Xie, C., Wu, D., Jiang Y.*, "High-gain visible-blind UV photodetectors based on chlorine-doped n-type ZnS nanoribbons with tunable optoelectronic properties", J. Mater. Chem., 21, 12632 (2011), 影响因子: 6.101.
12.Wu, D., Jiang, Y.*, Zhang, Y., Li, J., Yu, Y., Zhang, Y., Zhu, Z., Wang, L. Wu, C., Luo, L., "Device structure-dependent field-effect and photoresponse performances of p-type ZnTe:Sb nanoribbons", J. Mater. Chem., 22, 6206-6212(2012), 影响因子: 6.101.
13.Wu, D., Jiang, Y., Zhang, Y., Yu, Y., Zhu, Z., Lan, X., Li, F., Wu, C., Wang, L., Luo, L., "Self-powered and fast-speed photodetectors based on CdS:Ga nanoribbon/Au Schottky diodes", J. Mater. Chem., 22, 23272-23276(2012), 影响因子: 6.101.
14.Yu, Y., Jiang, Y*., Jiang, P., Zhang, Y., Wu, D., Zhu, Z., Liang, Q., Chen, S., Zhang, Y., Jie, J., "Large conductance switching nonvolatile memories based on p-ZnS nanoribbon/n-Si heterojunction", J. Mater. Chem., 1, 1238-1244(2012), 影响因子: 6.101.
15.Yao, X., Chang, Y., Li, G., Mi, L., Liu, S., Wang, H., Yu, Y., Jiang, Y.*, "Inverted quantum-dot solar cells with depleted heterojunction structure employing CdS as the electron acceptor", Sol. Energy Mater. Sol. Cells, 2015, 137: 287-292(2015), 影响因子: 5.337.
16.Lan, X., Jiang, Y.*, Liu, X., Wang, W., Wang, B., Wu, D., Liu, C., Zhang, Y., Zhong, H., "Large-Scale Growth of a Novel Hierarchical ZnO Three-Dimensional Nanostructure with Preformed Patterned Substrate", Cryst. Growth Des, 11(9),3837-3843(2011), 影响因子: 4.891.
17. Li, G., Jiang, Y.*, Wang, Y., Wang, C., Sheng, Y., Jie, J., Zapien, J. A., Zhang, W., Lee, S.-T., "Synthesis of CdSXSe1-X Nanoribbons with Uniform and Controllable Compositions via Sulfurization: Optical and Electronic Properties Studies", J. Phys. Chem. C, 113, 17183-17188(2009), 影响因子: 4.772.
18.Li, S., Jiang, Y., Wu, D., Wang, L., Zhong, H., Wu, B., Lan, X., Yu, Y., Wang, Z., Jie, J., "Enhanced p-Type Conductivity of ZnTe Nanoribbons by Nitrogen Doping", J. Phys. Chem. C, 114, 7980-7985(2010), 影响因子: 4.772.
19.Li, G., Zhai, T., Jiang, Y.*, Bando, Y., Golberg, D., "Enhanced Field-Emission and Red Lasing of Ordered CdSe Nanowire Branched Arrays", J. Phys. Chem. C, 115(19), 9740-9745(2011), 影响因子: 4.772.
20.Wang, H., Wang, X., Wang, L., Wang, J., Jiang, D., Li, G., Zhang, Y., Zhong, H., Jiang, Y.*, "Phase Transition Mechanism and Electrochemical Properties of Nanocrystalline MoSe2 as Anode Materials for High Performance Lithium-Ion Battery", J. Phys. Chem. C 2015.(2015), 影响因子: 4.772.
21.Jiang, Y., Wu, Y., Mo, X., Yu, W., Xie, Y. and Qian, Y., "Elemental solvothermal reaction to produce ternary semiconductor CuInE2 (E= S, Se) nanorods", Inorg. Chem., 39(14) (2000), 被引用次数: 180, 影响因子:4.762.
22.Chang, Y., Yao, X., Zhang, Z., Jiang, D., Yu, Y., Mi, L., Wang, H., Li, G., Yu, D., Jiang, Y.*, "Preparation of highly luminescent BaSO4 protected CdTe quantum dots as conversion materials for excellent color-rendering white LEDs", J. Mater. Chem. C, 2015, 3, 2831-2836(2015), 影响因子: 4.696.
23.Wang, H., Jiang, D., Zhang, Y., Li, G., Lan, X., Zhong, H., Zhang, Z., Jiang, Y.*, "Self-combustion synthesis of Na3V2(PO4)3 nanoparticles coated with carbon shell as cathode materials for sodium-ion batteries", Electrochim. Acta, 2015, 155(0): 23-28(2015), 影响因子: 4.504.
24. Lan, X., Jiang, Y.*, Su, H., Li, S., Wu, D., Liu, X., Han, T., Han, L., Qin, K., Zhong, H., "Magnificent CdS three-dimensional nanostructure arrays: the synthesis of a novel nanostructure family for nanotechnology", CrystEngComm, 13,145-152(2011), 影响因子: 4.034.
25.Yu, Y., Luo, L., Zhu, Z., Nie, B., Zhang, Y., Zeng, L., Zhang, Y., Wu, C., Wang, L., Jiang, Y.*, "High-speed ultraviolet-visible-near infrared photodiodes based on p-ZnS nanoribbon/n-silicon heterojunction", CrystEngComm, 15,1635-1642(2012), 影响因子: 4.034.
26.Wu, D., Jiang, Y.*, Wang, L., Li, S., Wu, B., Lan, X., Yu, Y., Wu, C., Wang, Z., Jie, J., "High-performance CdS:Pnanoribbon field-effect transistors constructed with high-K dielectric and top-gate geometry", Appl. Phys. Lett., 6,123118(2010), 影响因子: 3.302. | | |
