个人简介
李海蓉,女,汉族,甘肃省临洮县人,1993年7月参加工作,兰州大学微电子学与固体电子学专业毕业,研究生学历,博士学位,教授、硕士生导师。1989年9月至1993年6月,在兰州大学本科学习,专业为半导体物理与器件,获得学士学位。2002年9月至2004年6月在兰州大学上研究生(硕博连读)专业为微电子学与固体电子学,获得博士学位。1993年7月至1994年7月在兰州物理研究所真空室工作, 任助理工程师。1994年8月至1997年3月,在兰州金城科技有限公司产品技术部任工程师。1997年4月至2006年3月在兰州大学物理科学与技术学院任讲师。2006年4月至2013年4月,在兰州大学物理科学与技术学院任副教授;2013年5月至今,在兰州大学物理科学与技术学院任教授,硕士生导师。
研究领域
半导体物理学、半导体光电子学与光电子技术、有机半导体材料与器件、金属氧化物纳米半导体传感器、静电感应器件、 半导体材料、集成电路设计等
近期论文
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1. Yao Li, HairongLi*,BitaoLiu, JiaZhang, ZhengyanZhao, ZhigangYang, Yan Wen, YuhuaWang*,Warm-white-light emission from Eu2+/Mn2+ -coactivated NaSrPO4 phosphor through energy transfer,Journal of Physics and Chemistry of Solids,Volume 74, Issue 2, February 2013, Pages 175-180 2. Bingjian Qiana, Hairong Li, Zhi Yang, Yaozhong Zhanga, Yanjie Sua, Hao Wei, Yafei Zhang, Inverted SiC nanoneedles grown on carbon fibers by a two-crucible method without catalyst,Journal of Crystal Growth, 338(1), pp 6-11, 2012.1. 3. 氧化钛层对聚合物电池的性能影响, 蒲年年, 李海蓉, 申智力, 马国富, 刘肃, 发光学报 ,2013, 卷34(5期) ,Pages:600-604 4. 王金顺,李海蓉* ,彭应全,向东旭,ITO/Rubrene表面及界面的AFM和XPS研究,发光学报CHINESE JOURNAL OF LUMINESCENCE, 卷35(2期),207-212,2014.2 5. 申智利,李海蓉,刘肃,蒲年年,马国富,NPB修饰层提升聚合物太阳能电池的特性, 半导体技术,Vol. 39, No. 2, 137-141, 2014.2. 6. Bai Yajie, Liu Su, Li Hairong*, et al. White organic light-emitting devices with high color purity and stability[J]. Semiconductor Science and Technology, 2014, 29(4): 045026-1~6 7. Guofu Ma, Su Liu, Peng Wang, Jingxian Chang, Miao Zhang, Hairong Li. Synthesis of pod_like Cu2O nanowire arrays on Cu substrate ,[J]. Materials Letters, 2014, 120: 212–215. 8. 蒲年年,李海蓉* 谢龙珍, NiOx作为空穴传输层对有机太阳能电池光吸收的影响, 物理学报,2014, 63(6): 067201-1~067201-7,2014.3. 9. 常敬先,李海蓉,马国富,王鹏,SOI基上制备CuO纳米线;功能材料,2014,45(B06);165-168 10. XIANG Dong-xu, LI Hai-rong, XIE Long-zhen, YANG Jia-ming, WANG Fang, YUAN Chao-xin, SUN Yong-zhe, Influence of Light-emitting Layer Position on White Organic Light-emitting Diodes,chinese Journal of Luminescence, 2015.7,Vol.36(7) 821-828 11. Heng Deng, Hairong Li, Fang Wang, Chaoxin Yuan, Su Liu, Peng Wang, Longzhen Xie, Yongzhe Sun, Fangzhi Chang. A high sensitive and low detection limit of formaldehyde gas sensor based on hierarchical flower-like CuO nanostructure fabricated by sol–gel method .[J]. Journal of Materials Science: Materials in Electronics, July 2016.7, Volume 27, Issue 7, pp 6766–6772. 12. Zhiduo Liu,Dianyu Shen,Jinhong Yu, Wen Dai, Chaoyang Li,Shiyu Du,Nan Jiang,Hairong Li* and Cheng-Te Linb ,Exceptionally high thermal and electrical conductivity of three-dimensional graphene-foambased polymer composites, The Royal Society of Chemistry Advances, 2016,22364–22369 13. Fang Wang, Hairong Li*, Zhaoxin Yuan, Yongzhe Sun, Fangzhi Chang, Heng Deng, Longzhen Xie and Haiyan Li, A highly sensitive gas sensor based on CuO nanoparticles synthetized via a sol–gel method,The Royal Society of Chemistry 2016,79343–79349,2016.6 14. ZHANG Yong, XIE Long-Zhen, LI Hai-Rong, WANG Peng,LIU Su, PENG Ying-Quan, ZHANG Miao,Facile Synthesis of Rose-Like NiO Nanoparticles and Their Ethanol Gas-SensingProperty ,CHIN. PHYS. LETT. Vol. 32, No. 9 (2015) 098103 15. Yong Zhang, Long-Zhen Xie, Chao-Xin Yuan, Chun-Lin Zhang,Su Liu, Ying-Quan Peng, Hai-Rong Li* and Miao Zhang,A ppb-Level Formaldehyde Gas Sensor Based on Rose-Like Nickel Oxide Nanoparticles Prepared Using Electrodeposition Process,NANO: Brief Reports and Reviews,Vol. 11, No. 1 (2016) 1650009 (9 pages) 16. Yong Zhang,Long-zhen Xie,Chao-xin Yuan,Chun-lin Zhang,Su Liu,Ying-quan Peng,Hai-rong Li,Miao Zhang,Preparation of 3D rose-like nickel oxide nanoparticles by electrodeposition method and application in gas sensors,Journal of Materials Science: Materials in Electronics,February 2016, Volume 27, Issue 2, pp 1817–1827 17. Chaoxin Yuan, Hairong Li,* Longzhen Xie, Fang Wang, Heng Deng,Fangzhi Chang and Yongzhe Sun,Flower-like NiO nanostructures synthesized by electrodeposition method for efficient detection of toluene gas,RSC Adv., 2015, 5, 92128–92133 18. Fangzhi Chang,Hairong Li,Bo Zheng,Kun Qian,Qi Lei, Genliang Han,Yuzhe Song,Pengfei Shao,Effect of silver nanospheres embedded in buffer layer based on organic solar cells. J Mater Sci: Mater Electron ,2017