岳文瑾
发布时间:2020-09-17   浏览次数:1121

E-mailyuewenjin_79@163.com

【所受教育】

1997.09–2001.07   安徽大学,学士

2001.09–2004.07   安徽大学,硕士

2009.09–2012.08   中国科学技术大学,博士

2016.08–2018.01   美国南达科他州立大学,访问学者


【职称职位】

2004.07–2007.08     安徽工程科技学院  助教

2007.10–2011.09     安徽工程大学     讲师

2011.10–2016.10     安徽工程大学     副教授

2016.11        安徽工程大学     教授


【研究领域】

聚合物太阳电池、钙钛矿太阳电池

生物纳米材料


【主持项目】

12016年安徽省高校优秀青年骨干人才国内外访学研究重点项目(gxfxZD2016110)。

22016年安徽工程大学杰出青年科学基金项目(2016JQ002)。

3基于钙钛矿的新型聚合物太阳电池的研发及应用2015年度安徽省对外科技合作项目(1503062018)。

4“CuInS2量子点的宏量可控合成及其宽光谱吸收太阳电池性能的研究2013年度国家自然科学基金项目(51202002)。

5几丁质酶对磷酸铵镁晶体生成的影响2009年度安徽省高校优秀人才基金(2009SQRZ093)。

6浮萍多糖提取工艺的研究2008年度芜湖市科技计划重点项目2008508)。

7羧甲基壳聚糖纳米粒子对草酸钙晶体生长抑制的研究”, 2006年度安徽省高校青年基金(2006jql145)。


【讲授课程】

1、本科生:无机化学、纳米材料与纳米技术(双语)、化工水质处理

2、研究生:半导体器件


【学术论文】

1Wenjin Yue*Feiyu WeiYang Li, Lian Zhang, Qun Zhang, Qiquan Qiao*, Hui Qiao*Hierarchical CuInS2 synthesized with the induction of histidine for polymer/CuInS2 solar cellsMater. Sci. Semiconduc. Proc. 2018, 76, 14–24.

2Salem Abdulkarim,Hytham Elbohy,Nirmal Adhikari,Md Nazmul Hasan,Wenjin Yue*, and Qiquan Qiao*, Urea-Treated Electrolytes for Higher Efficiency Dye-Sensitized Solar Cells, J. Phys. Chem. C 2017, 121, 2122521230.

3Wenjin Yue*, Feiyu Wei, Chenbin He, Dandan Wu, Nengwen Tang and Qiquan Qiao*L-Cysteine assisted-synthesis of 3D In2S3 for 3D-CuInS2 and its application in hybrid solar cellsRSC Adv. 2017, 7, 37578-37587

4Wenjin Yue, Changwen Liu, Zeliang Qiu, Mingtai Wang*, TiO2/CuInS2-core/shell nanoarrays for polymer-based hybrid solar cells with aligned bulk heterojunctions,2015, Solar Energy, 113, 358–368.

5Wenjin Yue*, Yuwen Pan, Zhongwen Xie, XingYang, Lingling Hu, Lirui Hong, Yafei Tong, Qingqing  ChengDifferent depositing amount of CuInS2 on TiO2 nanoarrays for polymer/CuInS2TiO2 solar cellsMaterials Science in Semiconductor Processing, 2015, 40, 257261.

6Wenjin Yue*, Zhongwen Xie, Yuwen Pan, Guoqiang Zhang, Songming Wang, Fei Xu, Cheng Yao, Lingling Hu, Dan Li, Xing Yang, Qinping Song and Fangzhi Huang, Improved Device Performance of Polymer-CuInS2/TiO2 Solar Cells Based on Treated CuInS2 Quantum DotsJournal of  Electronic Materials, 2015, 10(44), 3294-3301

7Wenjin Yue*, Wenshan Sun, Songming Wang, Guoqiang Zhang, Mingyang Lan and Guangjun Nie*Influence of Photoactive Layer Structure on Device Performance of Poly(2-methoxy-5-

(2-ethylhexyloxy)-1,4-phenylene vinylene)-CuInS2/ZnO Solar CellsJournal of Nanoscience and Nanotechnology, 2015, 15, 4421-4425.

8Wenjin Yue, Mingtai Wang*, Guangjun Nie*, Ternary MEH-PPV-CuInS2/ZnO solar cells with tunable CuInS2 content, Solar Energy, 2014, 99, 126-133.

9Wenjin Yue*, Guoqiang Zhang, Songming Wang, Wenshan Sun, Mingyang Lan, Guangjun Nie*, Influence of crystal phase for CuInS2 on device performance of polymer-CuInS2/oxide nanoarrays solar cells, Materials Science in Semiconductor Processing, 2014, 25, 337-343.

10Wenjin Yue*, Mingyang Lan, Guoqiang Zhang, Wenshan Sun, Songming Wang and Guangjun Nie*, Size-dependent polymer/CuInS2 solar cells with tunable synthesis of CuInS2 quantum dots, Materials Science in Semiconductor Processing, 2014, 24, 117-125.

11Wenjin Yue, Fan Wu, Changwen Liu, Zeliang Qiu, Qi Cui, Hui Zhang, Feng Gao, Wei Shen, Qiquan Qiao, Mingtai Wang*Incorporating CuInS2 quantum dots into polymer/oxide-nanoarray system for efficient hybrid solar cells, Solar Energy Materials and Solar Cells, 2013, 114, 43-53.

12Wenjin Yue, Shikui Han, Ruixiang Peng, Wei Shen, Hongwei Geng, Fan Wu, Shanwen Tao and Mingtai Wang*, CuInS2 quantum dots synthesized by a solvothermal route and their application as effective electron acceptors for hybrid solar cells, Journal of Materials Chemistry 2010, 20, 7570-7578.

13Wenjin Yue*, Guangjun Nie, Zhenxing Chen, Yanbin Li and Qianqian Xu, Influence of Different Kinds of Polysaccharides on Crystal Growth of Calcium Oxalate in Microemulsion, Asian Journal of Chemistry 2011, 23, 319-322.

14Wenjin Yue* and Guangjun Nie, Influence of Different Biomolecules on Crystal Growth of Calcium Oxalate in Microemulsion, Asian Journal of Chemistry 2009, 21, 6295-6300.

15Wenjin Yue*, Guangjun Nie and Huaichao Rong, Influence of Templates on Crystal Growth of Calcium Oxalate, Asian Journal of Chemistry 2007, 19, 2015-2022.

 

【学术会议】

1岳文瑾*,魏飞宇,龚金涛,黄宇航,郑晨,/纳分级结构的Cu2CdSnS4的微波法合成,第11届无机非专题研讨会暨优秀学者论坛,2019.08.23-26,西安(口头报告)。

2Wenjin Yue*, “CuInS2 quantum dots for polymer-based solar cells”4th Annual International Conference on Material Science and Engineering2016.06.17-19GuangzhouKeynote报告)

3岳文瑾*,张国强,王松明,徐菲,“量子点表面修饰对聚合物/CuInS2太阳电池性能的影响”,中国化学会第29届学术年会,2014.08.04-07,北京


【发明专利】

1岳文瑾,聂光军,魏飞宇,李阳。“一种黄铜矿结构3D-CuInS2及其制备方法”,发明专利号:ZL201710673389.X

2岳文瑾,王命泰。“一种基于TiO2-CuInS2核壳纳米棒阵列的有机/无机杂化太阳电池及其制备方法”,发明专利号:ZL201210211088.2

3、聂光军,张二伟,岳文瑾,刘宁,赵锐,陶勇,薛正莲,刘艳,王洲。“一种对羟基苯甲酸丙酯的合成方法”,发明专利号:ZL201611180030.0

4、高锋,王命泰,岳文瑾。“一种石墨烯-CuInS2量子点复合物及其制备方法,发明专利号:ZL201210472353.2

5、韩士奎,王命泰,岳文瑾。“纤锌矿结构CuInS2量子点及其制备方法”,发明专利号:ZL201110374729.1

6、韩士奎,王命泰,岳文瑾。“闪锌矿结构和纤锌矿结构CuInS2量子点及其制备方法”,发明专利号:ZL200910251728.0


【学术论著】

Wenjin Yue, “Organic-Inorganic Hybrid Solar Cells Based on Quantum Dots” (Chapter 3, 65–92), «Printable Solar Cells» edited by Nurdan Demirci Sankir and Mehmet Sankir