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钱妍,女,1980年生。南京邮电大学信息材料与纳米技术研究院教授,博士生导师。2002年毕业于安徽大学,获化学专业学士学位;2007年毕业于中国科学院化学研究所,获有机化学博士学位,同年入职南京邮电大学材料科学与工程学院/信息材料与纳米技术研究院任教。主要致力于凝聚态发光材料、有机光/电功能材料以及发光传感材料的设计及性质研究。已在学术期刊上发表SCI论文80余篇,被SCI文章引用1600余次。申请或获得中国发明专利17件。获教育部自然科学一等奖(排名第4)(2018年)、江苏省“六大人才高峰”高层次人才(B类)(2018年)、江苏高校“青蓝工程”中青年学术带头人(2018年)。
联系方式
办公地点:南京市文苑路9号 南京邮电大学仙林校区教五楼#510
电 话:+86-25-85866396
Email: iamyqian@njupt.edu.cn
个人简历
2002年毕业于安徽大学,获化学专业学士学位;
2007年毕业于中国科学院化学研究所,获有机化学博士学位;
2007年7月入职南京邮电大学,现任南京邮电大学材料科学与工程学院/信息材料与纳米技术研究院教授、硕士生导师。
研究方向
研究兴趣为有机光/电材料的设计与性质研究。主要致力于研究凝聚态发光体系的材料设计、发光机制研究及其光/电功能应用、光致异构材料的设计及其光/电性能研究以及发光功能材料的光物理行为研究。
教学培养
承担《光谱原理与应用》、《分子光物理与光化学》、《高分子材料研究方法》、《有机波谱分析》等的课程教学工作,以及《材料合成实习》的实验教学工作。指导的研究生曾获得 “国家奖学金”、“万全奖学金”、“优秀研究生”及“优秀硕士论文”等荣誉。
主要研究项目
1. 国家自然科学基金面上项目,基于激发态分子内质子转移化合物的非能量传递型二元互补色固态白光OLED材料体系的设计与性质研究(21573111),66万,2016.01-2019.12。项目负责人,在研。
2. 国家自然科学基金面上项目,有机光电材料中分子pi-堆积的构筑及其对光电性能的影响(21373114),80万,2014.01-2017.12。项目负责人,在研。
3.国家自然科学基金青年科学基金项目,新型凝聚态强发光有机化合物的聚集发光增强机制研究及应用,(21003076),20万,2011.01-2013.12。项目负责人,结题。
4. 江苏省高校自然科学基础研究面上项目,聚集诱导发光增强的有机纳米粒子的制备、发光增强机理及性质研究”(09KJB150009),3万,2009.09-2011.12。项目负责人,结题。
主要学术成绩
在Advanced Materials, Advanced Electronic Materials, Advanced Optical Materials, Chemical Communications, Organic Electronics,The Journal of Physical Chemistry B/C等学术期刊上发表SCI论文70余篇,被SCI文章引用近1100次(单篇引用次数最高达151次),h-因子为19。申请或获得中国发明专利17项(授权5项)。
奖励荣誉
1. 江苏高校“青蓝工程”优秀青年骨干教师(2016)
2. 南京邮电大学 “鼎新学者”获得者(2014)
代表性著作
[1] Haifeng Ling, Kangming Tan, Qiyun Fang, Xinshui Xu, Hao Chen, Wenwen Li, Yefan Liu, Laiyuan Wang, Mingdong Yi, Ru Huang, Yan Qian,* Linghai Xie,* Wei Huang*, Light-Tunable Nonvolatile Memory Characteristics in Photochromic RRAM, Advanced Electronic Materials, 2017, 3(8), 1600416. (Top 10 hot articles in 201707, Advanced Electronic Materials)
[2] Qiyun Fang, Jiewei Li, Shayu Li, Ruihong Duan, Shuangqing Wang, Yuanping Yi, Xudong Guo, Yan Qian,* Wei Huang,* Guoqiang Yang*, Thermally populated “bright” states for wide-range and high temperature sensing in air, Chemical Communications, 2017, 53, 5702 - 5705. (Back Cover)
[3] Qi Wei, Yan Li, Jingguan Liu, Qiyun Fang, Jiewei Li, Xiaohong Yan, Linghai Xie, Yan Qian,* Ruidong Xia,* Wei Huang*, A high performance deep blue organic laser gain material, Advanced Optical Materials, 2017, 5, 1601003. (Cover Picture)
[4] Yan Qian, Xinwen Zhang, Linghai Xie, Dianpeng Qi, Bevita K. Chandran, Xiaodong Chen*, Wei Huang*, Stretchable Organic Semiconductor Devices, Advanced Materials, 2016, 28 (42), 9243–9265.
[5] Yan Qian, Xinwen Zhang, Qianpeng Qi, Linghai Xie, Bevita K. Chandran, Xiaodong Chen*, Wei Huang*, Thin-Film Organic Semiconductor Devices: from Flexibility to Ultraflexibility, Science China Materials, 2016, 59(7), 589–608.
[6] Jingguan Liu, Yan Qian (co-first author), Qi Wei, Qi Zhang, LinghaiXie, Chulyeon Lee, Hwajeong Kim, Youngkyoo Kim, Ruidong Xia*, Deep blue laser gain medium based on triphenylamine substituted arylfluorene with improved photo-stability, IEEE Journal of Selected Topics in Quantum Electronics, 2016, 22, 1300106.
[7] Yan Qian, Wenwen Li, Wen Li, Xiuxia Xu, Zongqiong Lin, Linghai Xie,* Mingdong Yi,* Wei Huang*, Reversible optical and electrical switching of air-stable OFETs for nonvolatile multi-level memories and logic gates, Advanced Electronic Materials, 2015, 1, 1500230.
[8] Yan Qian*, Xiuxia Xu, Wenwen Li, Jianyun Wang, Bingyan Wei, Qi Wei, Xiaohong Yan, Wei Hu, Yanqing Lu, Linghai Xie, Xinwen Zhang*, Wei Huang*, Photo-induced storage and mask-free arbitrary micro-patterning in solution-processable and simple-structured photochromic organic light-emitting diodes, Organic Electronics, 2015, 26, 476–480.
[9] Jiewei Li, Yan Qian*, Linghai Xie, Yuanping Yi*, Wenwen Li, Wei Huang*, “From dark TICT state to Emissive quasi-TICT State: The AIE Mechanism of N-(3-(benzo[d]oxazol-2-yl)phenyl)-4-tert-butylbenzamide”, The Journal of Physical Chemistry C, 2015, 119, 2133–2141.
[10] Jingfang Ye, Chen Liu, Changjin Ou, Minmin Cai, Shufen Chen, Qi Wei, Wenwen Li, Yan Qian*, Linghai Xie, Baoxiu Mi*, Zhiqiang Gao, Wei Huang*, “Universal Strategy for Cheap and Color-Stable Single-EML WOLEDs Utilizing Two Complementary-Color Nondoped Emitters without Energy Transfer”, Advanced Optical Materials, 2014, 3(10), 938–944.
[11] Yan Qian, Qi Wei, Gonzalo Del Pozo, Marta M Mróz, Larry Lüer, Santiago Casado, Juan Cabanillas-Gonzalez, Qi Zhang, Linghai Xie*, Ruidong Xia*, Wei Huang*, “H-Shaped Oligofluorenes for Highly Air-Stable and Low-Threshold Non-Doped Deep Blue Lasing”, Advanced Materials, 2014, 26, 2937-2942.
[12] Jiewei Li, Yuyu Liu, Yan Qian*, Lu Li, Linghai Xie*, Jingzhi Shang, Ting Yu, Mingdong Yi, Wei Huang*, “Describing curved-planar π-π interactions: modeled by corannulene, pyrene and coronene”, Physical Chemistry Chemical Physics, 2013, 15, 12694-12701.
[13] Yan Qian, Guohua Xie, Shufen Chen, Zhengdong Liu, Yeren Ni, Xinhui Zhou, Linghai Xie*, Jing Liang, Yuezhi Zhao, Minghong Yi, Yi Zhao*, Wei Wei, Wei Huang,* “A new spiro[fluorene-9,9’-xanthene]-based host material possessing no conventional hole- and electron-transporting units for efficient and low voltage blue PHOLED via simple two-step synthesis”, Organic Electronics, 2012, 13, 2741–2746.
[14] Yan Qian, Minmin Cai, Xinhui Zhou, Zhiqiang Gao, Xupeng Wang, Yuezhi Zhao, Xiaohong Yan, Wei Wei, Linghai Xie, Wei Huang*, “More than Restriction of TICT: Three-dimensional Expanded #-shaped Cross Molecular Packing for Emission Enhancement in Aggregates”, The Journal of Physical Chemistry C, 2012, 116, 12187−12195.
[15] Minmin Cai, Zhiqiang Gao, Xinhui Zhou, Xupeng Wang, Shufen Chen, Yuezhi Zhao, Yan Qian*, Naien Shi, Baoxiu Mi, Linghai Xie, Wei Huang*, “A Small Change in Molecular Structure, a Big Difference in AIEE Mechanism”, Physical Chemistry Chemical Physics, 2012, 14 (15), 5289–5296.
[16] Yan Qian*, Shayu Li, Qian Wang, Xiaohai Sheng, Shikang Wu, Shuangqing Wang, Juan Li, Guoqiang Yang*, “A Nonpolymeric Highly Emissive ESIPT Organogelator with Neither Dendritic Structures nor Long Alkyl/Alkoxy Chains”, Soft Matter, 2012, 8, 757–764.
[17] Yan Qian, Minmin Cai, Linghai Xie, Guoqiang Yang*, Shikang Wu, Wei Huang*, “Restriction of Photoinduced Twisted Intramolecular Charge Transfer”, ChemPhysChem 2011, 12, 397–404.
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