乔芬-江苏大学能源与动力工程学院

 

乔芬

出生年月

1981.12

 

副教授

任职年月

2013.04

党政职务

系副主任

所在学科

新能源科学与工程

技术职务

副教授

博导/硕导

硕导

最高学位

博士/ 大连理工大学/新加坡南洋理工大学联合培养博士;意大利IIT研究所博士后

学术任职

1.经信委电子类评审专家

2.国家自然基金委评审专家

3.江苏省工程热物理学会 会员

联系方式

Email: fqiao@ujs.edu.cn

主讲课程

1.《新能源材料》

2.《可再生能源概论》

3.《新能源专业英语》

研究领域

1.纳米结构的控制生长和原理

半导体纳米结构的可控合成,探究其性能和对应的纳米材料的微结构、表面态等因素之间的关系。

2.纳米结构的自组装与薄膜制备

探索简易自组装技术,制备纳米光电器件所需纳米薄膜。

3.纳米结构光电器件的构筑

构筑低维纳米结构光电器件,实现光电器件性能最佳化。

在研项目

1.国家自然科学基金项目,基于胶体纳米棒阵列异质结结构的可控构筑及其界面电荷输运机制的研究,2014-2017

2.国家特别资助博士后基金,超晶格在叠层太阳能电池的应用2016-2018

3.国家留学回国人员基金,可控性自组装及太阳能电池的研究,2013-2015

4.国家博士后面上基金,界面电荷传输性能的改性方法及机理研究,2015-2017

5.江苏省博士后基金,阵列的可控构筑及其在太阳能电池中的应用研,2015-2017

6.江苏大学青年骨干教师培训工程”青年学术带头人培育计划,2014-2018

7.江苏大学高级人才启动基金,纳米晶材料的自组装及薄膜太阳能电池的研究,2013-2015

主要论著

论文

1.Fabrication of 3D graphene/CdTe quantum dots composite through electrophoretic deposition and its electrical properties. Journal of Materials Science: Materials in Electronics, 28(20), 15333-15337,2017.

2.Functionalized self-assembly of colloidal CdX (X= S, Se) nanorods on solid substrates for device applications. Nanoscale, 9(24), 8066-8079,2017.

3.Effect of Cd-phosphonate complex on the self-assembly structure of colloidal nanorods. Materials Letters, 180, 85-88,2016.

4.Self-assembly of Parallel Aligned Nanorods Monolayer via Thermal Annealing Technique, Materials Letters,135,165167,2014.
5.Enhanced photo-induced charge transfer properties of vertically aligned nanorods arrays fabricated by thermal annealing approach, J Mater Sci: Mater Electron , 25,2339
2343,2014.
6.Surface photovoltage properties of self-assembled CdSe quantum dots arrays fabricated by slow evaporation approach, Vacuum,101,163-165,2014.
7.A Novel Method for Preparing Vertically Aligned CdS Nanorod Arrays and Its Application in Photovoltaic Cells with P3HT Fibers, Journal of Inorganic and Organometallic Polymers and Materials,23,1524-1528,2013.
8.Enhanced transport properties of assembled CdSe quantum dot through slow evaporation with mixed solvents, Journal of Materials Science:Materials in Electronics,24,2636-2640,2013.
9.Improved performance of photovoltaic devices based on poly(3-hexylthiophene) nanofibers and CdSe quantum dots through ligand exchange and annealing treatment, Solid-State Electronics, 82,25-28,2013.
10.Semiconductor Nanocrystals for Photovoltaic Devices, Materials Science Forum, 2016, 852,935-938.
11.Self-Assembly of Colloidal Nanorods Arrays,International Journal of Nanoscience, 2015,14,1460029-1-4.
12.Photovoltaic characterization of poly(2,5-bis(3-dodecylthiophen-2-yl)-2
,2’’-biselenophene) for organic solar cells, Solar Energy Materials and Solar Cells, 94,442-445, 2010.
13.Bulk heterojunction organic solarcell based on a novel fluorescent fluorine-boron complex. Journal of Material Science,44,1283
1286,2009
14.Improvedphotovoltaic properties of solar cells based on poly[9,9
-dioctyl –fluorene -co- bithiophene]and a soluble fullerene by microwave annealing. Journal of Material Science, 44, 3462-3465, 2009.
15.Enhanced photovoltaic characteristics of solar cells based on n-type triphenodioxazine derivative, Microelectronics Journal, 39, 1568
1571,2008.
16.Optical Properties of Polymer Composites and its Applications in photovoltaic Devices: A Review. Nova Science Publishers,ISBN: 978-1-60876-022-0,171-183.

17.Phase diagram of octapod-shaped nanocrystals in a quasi-two-dimensional planar geometry, The Journal of Chemical Physics,138,154504-1-13,2013.
18.Transient photovoltage in poly(3-hexylthiophene)/n-crystalline silicon heterojunction, Vacuum, 93,28-30,2013.
19.Enhanced surface photovoltage response of ZnO nanorod based inorganic/organic hybrid junctions by constructing embedded bulk composite structures, Applied Physics A, 110, 263-267,2013.
20.Ordered Two-Dimensional Superstructures of Colloidal Octapod-Shaped Nanocrystals on FlatSubstrates, Nano Letters, 12(10),5299-5303,2012.
21.A superbright X-ray laboratory microsource empowered by a novel restoration algorithm, Journal of applied crystallography, 45,1228-1235,2012.  
22.Impedance spectroscopy studies on CuPc/n-Si hybrid solar cell, Journal of Physics and Chemistry of Solids, 73,626-629,2012.
23.Optical and electrical properties of colloidal (spherical Au)-(spinel ferrite nanorod) heterostructures, Nanoscale, 3, 4647-4654,2011.
24.Fabrication of silicon wafer with ultra low reflectance by chemical etching method,Applied Surface Science, 257, 7411-7414, 2011.
25.Synthesis, Characterization, and Physical Properties of a New Conjugated Heteroacene: 2-Methyl-1,4,6,7,8,9-hexaphenyl-benz(g)isoquinolin-3(2H)-one(BIQ),Chemistry-An Asian Journal, 6(3),856-862,2011.
26.Metal grids-based texturization of monocrystalline silicon wafersfor solar cells, Sol. Energy Mater. Sol. Cells,94,942,2010.
27.Synthesis, characterization and photovoltaic application of N,N
-bisfluorenyl substituted perylene bisimide,Sol. Energy Mater. Sol. Cells,94(12), 20362041, 2010.

教材

《新能源专业英语》,江苏大学出版社,2016.

教改论文
1.
构建新能源科学与工程专业学生以兴趣为导向的自主学习培养模式.创新教育研究, 2017, 5(2): 192-197.

2.新能源科学于工程专业实验安全教学模式的探讨,创新教育研究, 2017, 5(5): 425-429.

获奖情况

1江苏大学青年骨干教师培养工程青年学术带头人培育人选,2014.12

2.江苏大学校级优秀教师,2017.12.

3.江苏大学中文讲课比赛二等奖,2013.10

4.江苏大学双语讲课比赛三等奖,2013.10

发明专利

授权发明专利:

1.有机太阳能电池片的测试支架, 2013.05.08,中国,ZL201220477925.1
2.
一种有机太阳能电池量子效率的测试固定装置,2013.12.11,中国,ZL201310297773
3.
一种纳米棒单层自组装的制备方法,2014.01.09,中国,201410020328

 

研究方向:功能性微纳材料结构设计及光电器件制备

招收工程热物理、新能源科学与工程等相关专业硕士研究生,每年2-3名。