郑巧
副教授
郑巧博士,副教授、硕士生导师
2008年获武汉大学电子科学与技术专业学士学位,2008-2013年硕博连读获武汉大学凝聚态物理专业博士学位,2016/01-2016/10, 美国Wake Forest大学纳米技术与分子材料中心访问学者,合作导师:David L. Carroll(美国物理学会会士)。主讲《新能源技术》、《太阳电池及应用系统》课程,指导《真空镀膜实践》实践课程,合作讲授《数学物理方法》课程。郑巧博士主要从事新型太阳能电池、微纳光电材料的制备及应用研究。主持和参与多个国家级科研项目,发表SCI论文30余篇,授权国家发明专利多项。欢迎对新型半导体器件、新能源领域感兴趣的本科生和研究生与我联系。联系方式:qiaoz@fzu.edu.cn
Dr. Zheng Qiao, Associate Professor, Master Supervisor
In 2008, she obtained a bachelor’s degree in electronic science and technology from Wuhan University. From 2008 to 2013, she received a doctorate degree in condensed matter physics from Wuhan University, 2016/01-2016/10, she visited Nanotechnology and Molecular Materials Center of Wake Forest University, USA. Co-advisor: David L. Carroll (Fellow of the American Physical Society). Now, she gives the lectures on "New Energy Technology", "Solar Cells and Application System", guides the "Vacuum Coating Practice" practical course, and teaches the "Mathematical Physics Method" course. Dr. Zheng Qiao is mainly engaged in the preparation and application of the novel solar cells and micro-nano photoelectric materials. She hostes and participates in many national scientific research projects, publishes more than 30 SCI papers, and is authorized a number of national invention patents. The undergraduate and graduated students interested in the novel semiconductor materials and devices of the new energy fields are welcome to contact me. Email: qiaoz@fzu.edu.cn
 
 
学术及社会兼职(Academic and social work)  
1担任Nanotechnology、Solar Energy Materials and Solar Cells等多种SCI期刊审稿人
 
科研项目(Research project)  
12019J01217吸收增强型有机太阳能电池研究8万福建省自然科学基金2019-2021独立撰编写 
261704028双重陷光结构对有机太阳电池吸光性能的影响研究22万 国家自然科学基金2018-2020独立撰编写 
361440009功能化石墨烯为电极的柔性聚合物太阳能电池研究10万 国家自然科学基金2015/01--2015/12独立撰编写 
42015J05123基于柔性电极的聚合物太阳能电池研究3万福建省自然科学基金2014-2018独立撰编写 
 
科技论著(Scientific treatise)  
1Annealing temperature impact on Sb2S3 solar cells prepared by spin-coating methodMaterials Letter, 2019.5.15,vol: 243 page: 104-107SCI通讯
2Different doping positions of Au nanorods impact on organic solar cells performanceJournal of Materials Science: Materials in Electronics,2018,29,10669-10676SCI通讯
3Flexible polymer solar cells based on Ag metallic grids and functional reduced graphene oxide composite electrodeJournal of Physics D:Applied Physics,2017, 50 : 415101SCI1
4Improved performance of inverted organic solar cells by using La-doped TiO2 film as electron transport layerJournal of Materials Science: Materials in Electronics,2016.9.7,28:2272~2278SCI通讯
5Comparing molybdenum oxide thin films prepared by magnetron sputtering and thermal evaporation applied in organic solar cellsJournal of Materials Science: Materials in Electronics,2016,27:3245–3249SCI通讯
6Power conversion efficiency enhancement of polymer solar cells using MoO3/TFB as hole transport layerApplied Physics A-Materials Science & Processing,2015.9.01,120(3):857~861SCI1
7Solution processable reduced graphene oxide decorated ATO electrode for organic solar cellsApplied Physics A-Materials Science & Processing,2014.01.01,117(3):1095~1101SCI1
8Low-temperature solution-processed graphene oxide derivative hole transport layer for organic solar cellsJournal of Physics D-Applied Physics,2013.01.01,46(13):135101SCI1
9Hybrid graphene-ZnO nanocomposites as electron acceptor in polymer-based bulk-heterojunction organic photovoltaicsJournal of Physics D-Applied Physics,2012.01.01,45(45):455103SCI1
10Roles of thermal annealing in cyclopentadithiophene/thienopyrroledione:fullerene blended film and performance of organic photovoltaicsSolar Energy Materials and Solar Cells,2011.11.01,95(11):3114~3118SCI1
11Efficiency improvement in organic solar cells by inserting a discotic liquid crystalSolar Energy Materials and Solar Cells,2011.8.01,95(8):2200~2205SCI1
 
授权专利(Authorized patent)  
1以La-TiO2为电子传输层的有机光伏电池及其制备方法发明专利2017-05-10福州大学1