一、简 历
郭文滨,男,教授,1999年吉林大学材料科学与工程学院本科毕业,2004年获得吉林大学微电子学与固体电子学博士学位。2004年7月至2006年9月作为博士后在长春应用化学研究所有机光电实验室进行研究工作。2008年4月至2009年5月在韩国光州科学技术研究院从事博士后研究工作。主要研究方向为有机波导器件与有机光电器件。到目前为止,在相关领域的发表四十余篇论文。所参加的项目曾获得2008年和2009年吉林省科学技术进步三等奖。2008至2013年作为项目负责人先后主持国家自然科学基金等项目8项。
二、研究方向
有机光电材料与器件。
三、承担科研项目及获奖
1.承担科研项目
【1】基于氟化聚酰亚胺awg 的光开关及其关键技术研究,自然科学基金青年项目。
【2】相对测量敏感器控制系统开发,横向项目。
【3】叠层聚合物太阳电池及其载流子传输特性研究,吉林省科技发展重点项目。
【4】双谱段光学系统设计,横向项目。
【5】应用于波分复用系统的聚合物awg光开关研究,吉林省科技发展项目。
2.科研获奖
2008年和2009年获得吉林省科技进步三等奖。
四、 讲授课程
本科生课程:光电子学与光电器件,半导体器件性能测试实验
研究生课程:高速光电子学
五、代表性工作及论文
[1] wenbin guo(*), kezhi zheng, wenfa xie, lu sun, liang shen, chunyu liu, yeyuan he, zhihui zhang, efficiency enhancement of inverted polymer solar cells by doping nayf4:yb3 ,er3 nanocomposites in pcdtbt:pcbm active layer, solar energy mater. & sol. cells, 2014,124: 126-132.
[2] wenbin guo(*), liang shen, caixia liu, shengping ruan, and weiyou chen, modelling of charge carrier mobility effect on organic bulk heterojunction solar cells, integrated ferroelectrics, 2012,138: 38-43.
[3] yeyuan he, chunyu liu, huimin jiang,wenbin guo(*), liang shen, weiyou chen, the light trapping enhancement of inverted polymer solar cells by introducing nayf4 nanoparticles, synthetic metals, 2014,195: 117-121.
[4] chunyu liu, wenbin guo(*), huimin jiang, liang shen, shengping ruan, dawei yan, efficiency enhancement of inverted organic solar cells by introducing pfdtbt quantum dots into pcdtbt:pc71bm active layer, organic electronics, 2014, 15: 2632–2638.
[5] chunyu liu, huan chen, dan zhao, liang shen, yeyuan he, wenbin guo(*), and weiyou chen, the action mechanism of tio2:nayf4:yb3 ,tm3 cathode buffer layer in highly efficient inverted organic solar cells, appl. phys. lett., 2014, 105: 053301.
[6] chunyu liu, kaiwen chang, wenbin guo(*), hao li, liang shen, weiyou chen,and dawei yan, improving charge transport property and energy transfer with carbon quantum dots in inverted polymer solar cells, appl. phys. lett., 2014, 105: 073306.
[7] yeyuan he, zhiqi li, jinfeng li, xinyuan zhang, chunyu liu, hao li, liang shen, wenbin guo(*) and shengping ruan, appl. phys. lett., 2014, 105: 223305.
[8] xuehui gu, guohua liu, min zhang, haifeng zhang, jingran zhou, wenbin guo(*), yu chen, and shengping ruan, photovoltaic properties of zrxti1-xo2 solid solution nanowire arrays, j. nanosci. and nanotech., 2014, 14:3731-3734.
[9] fanxu meng, chen tao, yongfan wang, liang shen, wenbin guo(*), yu chen, and shengping ruan, the role of fe3o4 nanocrystal film in bilayer-heterojunction cupc/c60 solar cells, j. nanosci. and nanotech., 2014, 14:3623-3626.
[10] lu sun, liang shen, fanxu meng, peng xu, wenbin guo(*), and shengping ruan, the short circuit current improvement in p3ht:pcbm based polymer solar cell by introducing psbtbt as additional electron donon, j. nanosci. and nanotech., 2014, 14: 3446-3449.
[11] jian wu, yupeng zhang, yeyuan he, chunyu liu, wenbin guo(*), and shengping ruan, application of solution-processed v2o5 in inverted polymer solar cells based on fluorine-doped tin oxide substrate, j. nanosci. and nanotech., 2014, 14: 4214-4217.
[12] min zhang, guohua liu, xuehui gu, jingran zhou, wenbin guo(*), liang shen, and shengping ruan, solar-blind photodetector based on laalo3 with low dark current, j. nanosci. and nanotech., 2014, 14:3827-3830.
[13] shuang liu, fanxu meng, wenfa xie, zhihui zhang, liang shen, chunyu liu, yeyuan he, wenbin guo(*) and shengping ruan, performance improvement of inverted polymer solar cells by doping au nanoparticles into tio2 cathode buffer layer, appl. phys. lett., 2013, 103:233303.
[14] jian wu, yupeng zhang, peng xu, wenbin guo(*), liang shen, shengping ruan, role of solution-processed v2o5 in p3ht:pcbm based inverted polymer solar cells, synthetic metals, 2013, 170: 7-10.
[15] chunyu liu, jinfeng li, xinyuan zhang, yeyuan he, zhiqi li, hao li, wenbin guo(*), liang shen, and shengping ruan, improving efficiency of inverted polymer solar cells by introducing inorganic dopants, phys. chem. chem. phys., 2015,17:7960-7965.
六、 报考要求
具有良好的专业课及英语基础,方向不限。
七、毕业生去向
一汽大众,华为,中兴,大陆汽车电子,京东方,石家庄电子十三所,海信等。
八、 凯发官网入口的联系方式
办公室:85168241-8221
e-mail:guowb@jlu.edu.cn
