
刘为为
讲师
电话:027-87543755
Email:lwhust@hust.edu.cn
刘为为:男,1989年12月出生。2012年6月毕业于华中科技大学光电子科学与工程学院,获理学学士学位;2012年9月至2017年6月就读于华中科技大学武汉光电国家实验室物理电子学专业,获工学博士学位,期间获国家公派留学在新加坡南洋理工大学联合培养一年。长期从事新型半导体纳米材料和结构的非线性光学特性及其超快动力学研究,已在Nature, Nano Lett., Appl. Phys. Lett., Opt. Express等重要国际物理和光学期刊上发表论文10余篇,相关论文被Nat. Commun., Nano Lett., ACS Nano, Adv. Mater.等高水平期刊多次引用。
研究方向:新型半导体纳米材料的非线性光谱;半导体异质结的超快动力学研究
发表论文
Weiwei Liu, Kai Wang, Zhe Liu, Guozhen Shen, and Peixiang Lu. Laterally emitted surface second harmonic generation in a single ZnTe nanowire. Nano Letters 13(9): 4224-4229(2013)
Weiwei Liu, Kai Wang, Hua Long, Sheng Chu, Bing Wang, and Peixiang Lu. Near-resonant second-order nonlinear susceptibility in c-axis oriented ZnO nanorods. Applied Physics Letters 105: 071906(2014).
Weiwei Liu, Bing Wang, Shaolin Ke, Chengzhi Qin, Hua Long, Kai Wang, and Peixiang Lu. Enhanced plasmonic nanofocusing of terahertz waves in tapered graphene multilayers. Optics Express 24(13): 14765-14780(2016).
Weiwei Liu, Jun Xing, Jiaxin Zhao, Xinling Wen, Kai Wang, Peixiang Lu, and Qihua Xiong. Giant two-photon absorption and its saturation in two-dimensional organic-inorganic perovskite. Advanced Optical Materials 5(7): 1601045(2017).
Weigao Xu,Weiwei Liu, Jan F. Schmidt, Weijie Zhao, Xin Lu, Timo Raab, Carole Diederichs, Weibo Gao, Denis V. Seletskiy, and Qihua Xiong. Correlated fluorescence blinking in two-dimensional semiconductor heterostructures. Nature 541: 62-67(2017).
Hongbo Hu, Kai Wang, Hua Long,Weiwei Liu, Bing Wang, and Peixiang Lu. Precise determination of the crystallographic orientations in single ZnS nanowires by second-harmonic generation microscopy. Nano Letters 15(5): 3351-3357(2015).
Xingzhi Wang, Kezhao Du,Weiwei Liu, Peng Hu, Xin Lu, Weigao Xu, Christian Kloc, and Qihua Xiong. Second-harmonic generation in quaternary atomically thin layered AgInP2S6 crystals. Applied Physics Letters 109: 123103(2016).
Jian Xu, Hiroyuki Kawano,Weiwei Liu, Yasutaka Hanada, Peixiang Lu, Atsushi Miyawaki, Katsumi Midorikawa, and Koji Sugioka. Controllable alignment of elongated microorganisms in a 3D microspace using electrofluidic devices manufactured by hybrid femtosecond laser microfabrication. Microsystems & Nanoengineering 3: 16078(2017).