师资队伍库o
褚君浩
发布时间:2020-06-28        浏览次数:2558

院士、半导体物理和器件专家






教育和工作经历


1966 上海师范学院物理系毕业

1978 - 1984 中科院上海技术物理研究所研究生,凝聚态物理专业,硕士;半导体物理与器件物理专业,博士

1984 中科院上海技术物理研究所物理室副主任

1986 - 1988  德国慕尼黑理工大学物理系,洪堡研究员

19891992  中科院上海技术物理研究所副研究员、红外物理国家重点实验室副主任; 199210月晋升为研究员

1993 – 2003  中科院红外物理国家重点实验室主任

1999-至今    先后任上海技术物理研究所科技委副主任,学委会副主任

1999-至今    兼任“红外与毫米波学报”主编

2005  评选为中国科学院院士

2006  兼任华东师范大学教授,20079月-20198月任信息学院院长

2008 - 至今  兼任上海太阳能电池研发中心主任,中科院太阳能行动计划首席科学家

2008 - 至今  硅材料国家重点实验室学术委员会主任

2013 - 至今  红外物理国家重点实验室学术委员会主任

1996 - 2009 上海激光学会副理事长

1996 - 2012 上海物理学会副理事长

20062014 上海市红外遥感学会理事长

20072015 上海市科普作家协会理事长

2008-至今  SPIE-中国委员会常务理事长

20102012 SPIE 理事(Board of Directors

2012 - 2018 上海市科协副主席

19982002 第十一届上海市人大代表

20032013 第十、十一届全国人大代表

20032008 上海九三学社副主委

20132018 中国九三学社科普工作委员会主任

20092015 上海市人民政府参事

2020 至今  复旦大学材料科学系教授

研究方向


    褚君浩长期从事红外光电子材料和器件的研究,在窄禁带半导体物理和铁电薄膜材料器件物理等方面做了系统的有国际影响的研究结果。近年来主要从事新材料新结构高性能新型光电子材料和器件研究。发表学术论文600余篇,中英文专著三部,编著10部,专利70余项。

所获荣誉和奖励


    获得国家自然科学奖3次,省部级自然科学奖、科技进步奖12次,国家教育成果一等奖1次。培养博士生80余名。2004年评为国家973计划先进个人; 2004年获得国家重点实验室计划金牛奖;2014年评为全国十佳优秀科技工作者;2017年获得首届全国创新争先奖章;2017年评为“光荣与力量”感动上海年度人物。

近年来发表论文


1.Tu Luqi#; Cao Rongrong#; Wang Xudong; Chen Yan; Wu Shuaiqin; Wang Fang; Wang Zhen; Shen Hong; Lin Tie; Zhou Peng; Meng Xiangjian; Hu Weida*; Liu Qi*; Wang Jianlu*; Liu Ming; Chu Junhao; Ultrasensitive negative capacitance phototransistors, Nature Communications, 2020, 11: 101(1-8). 

2.Wang Xudong; Shen Hong; Chen Yan; Wu Guangjian; Wang Peng; Xia Hui; Lin Tie; Zhou Peng; Hu Weida*; Meng Xiangjian; Chu Junhao; Wang Jianlu*; Multimechanism Synergistic Photodetectors with Ultrabroad Spectrum Response from 375 nm to 10 μm, Advanced Science, 2019, 6(15): 1901050(1-8).

3.Huang Zhiming*; Zhou Wei; Tong Jinchao; Huang Jingguo; Ouyang Cheng; Qu Yue; Wu Jing; Gao Yanqing; Chu Junhao; Extreme Sensitivity of Room-Temperature Photoelectric Effect for Terahertz Detection, Advanced Materials, 2016, 28(1): 112-117. 

4.Tian B. B.; Wang J. L.*; Fusil S.; Liu Y.; Zhao X. L.; Sun S.; Shen H.; Lin T.; Sun J. L.; Duan C. G.*; Bibes M.; Barthelemy A.; Dkhil B.; Garcia V.*; Meng X. J.;Chu Junhao; Tunnel electroresistance through organic ferroelectrics, Nature Communications, 2016, 7: 11502(1-6).

5.Wang Xudong; Wang Peng; Wang Jianlu*; Hu Weida*; Zhou Xiaohao; Guo Nan; Huang Hai; Sun Shuo; Shen Hong; Lin Tie; Tang Minghua; Liao Lei; Jiang Anquan; Sun Jinglan; Meng Xiangjian; Chen Xiaoshuang; Lu Wei; Chu Junhao; Ultrasensitive and Broadband MoS2 Photodetector Driven by Ferroelectrics, Advanced Materials, 2015, 27(42): 6575-6581. 

6.Zhang Kaixuan; Du Yongping; Qi Zeming; Cheng Bin; Fan Xiaodong; Wei Laiming*; Li Lin; Wang Dongli; Yu Guolin; Hu Shuhong; Sun Changhong; Huang Zhiming; Chu Junhao; Wan Xiangang; Zeng Changgan*; Room-Temperature Anisotropic Plasma Mirror and Polarization-Controlled Optical Switch Based on Type-II Weyl Semimetal WP2, Physical Review Applied, 2020, 13(1): 14058(1-7). 

7.Wu Guangjian; Wang Xudong; Chen Yan; Wu Shuaiqin; Wu Binmin; Jiang Yiyang; Shen Hong; Lin Tie; Liu Qi; Wang Xinran; Zhou Peng; Zhang Shantao*; Hu Weida*; Meng Xiangjian; Chu Junhao; Wang Jianlu*; MoTe2 p-n Homojunctions Defined by Ferroelectric Polarization, Advanced materials, 2020: 1907937(1-8). 

8.Wu Guangjian#; Tian Bobo#; Liu Lan#; Lv Wei; Wu Shuang; Wang Xudong; Chen Yan; Li Jingyu; Wang Zhen; Wu Shuaiqin; Shen Hong; Lin Tie; Zhou Peng*;Liu Qi; Duan Chungang; Zhang Shantao; Meng Xiangjian; Wu Shiwei; Hu Weida;Wang Xinran; Chu Junhao; Wang Jianlu*; Programmable transition metal dichalcogenide homojunctions controlled by nonvolatile ferroelectric domains, Nature Electronics, 2020, 3: 43–50. 

9.Wang Haoliang; Wang Xudong; Chen Yan; Zhang Shukui; Jiang Wei; Zhang Xin; Qin Jiajun; Wang Jiao; Li Xiaoguo; Pan Yiyi; Liu Fengcai; Shi Zejiao; Zhang Haijuan; Tu Luqi; Wang Hailu; Long Huabao; Li Dapeng; Lin Tie; Wang Jianlu*; Zhan Yiqiang*; Shen Hong*; Meng Xiangjian; Chu Junhao; Extremely Low Dark Current MoS2 Photodetector via 2D Halide Perovskite as the Electron Reservoir, Advanced Optical Materials, 2020: 1901402(1-8). 

10.Ma Chuanhe; Lu Xiaoshuang; Xu Bin; Zhao Fei; An Xueer; Li Bo; Yue Fangyu; Jiang Jinchun; Chen Ye*; Sun Lin*; Chu Junhao; Effect of CZTS/CdS interfaces deposited with sputtering and CBD methods on V-oc deficit and efficiency of CZTS solar cells, Journal of Alloys and Compounds, 2020, 817: 153329(1-17). 

11.Lu Xiaoshuang; Xu Bin; Ma Chuanhe; Chen Ye; Yang Pingxiong; Chu Junhao; Sun Lin*; Mechanism on the modified sulfurization process for growing large-grained Cu2ZnSnS4 thin films, Solar Energy, 2020, 196: 597-606. 

12.Li Jiaze; Mao Niefang; Li Xin; Chen Fangfang; Li Yawei*; Jiang Kai; Hu Zhigao; Chu Junhao; Controllable fabrication of Bi2O3 nanoparticles by atomic layer eposition on TiO2 films and application in photodegradation, Solar Energy Materials and Solar Cells, 2020, 204: 110218(1-7). 

13.Tao Jiahua#; Hu Xiaobo#; Guo Yixin; Hong Jin; Li Kanghua; Jiang Jinchun; Chen Shaoqiang; Jing Chengbin; Yue Fangyu; Yang Pingxiong; Zhang Chuanjun*; Wu Zhuangchun*; Tang Jiang; Chu Junhao*; Solution-processed SnO2 interfacial layer for highly efficient Sb2Se3 thin film solar cells, Nano Energy, 2019, 60:802-809. 

14.Zhao Fei; Guo Yixin; Wang Xiang; Tao Jiahua; Jiang Jinchun*; Hu Zhigao; Chu Junhao; Enhanced performance of carbon-based planar CsPbBr3 perovskite solar cells with room-temperature sputtered Nb2O5 electron transport layer, Solar Energy, 2019, 191: 263-271. 

15.Zhang Shukui; Wang Xudong; Chen Yan; Wu Guangjian; Tang Yicheng; Zhu Liqing; Wan Haoliang; Jiang Wei; Sun Liaoxin; Lin Tie*; Shen Hong; Hu Weida;Ge Jun; Wang Jianlu*; Meng Xiangjian*; Chu Junhao; Ultrasensitive Hybrid MoS2-ZnCdSe Quantum Dot Photodetectors with High Gain, Acs Applied Materials & Interfaces, 2019, 11(26): 23667-23672. 

16.Tian Bobo; Liu Lan; Yan Mengge; Wang Jianlu*; Zhao Qingbiao; Zhong Ni; Xiang Pinghua; Sun Lin; Peng Hui; Shen Hong; Lin Tie; Dkhi Brahim; Meng Xiangjian; Chu Junhao; Tang Xiaodong; Duan Chungang*; A Robust Artificial Synapse Based on Organic Ferroelectric Polymer, Advanced Electronic Materials, 2019, 5(1): 1800600(1-8). 

17.Song Zhiyong; Shang Liyan; Hu Zhigao; Chu Junhao*; Chen Pingping; Yamamoto Akio; Kang Tingting*; InN superconducting phase transition, Scientific Reports, 2019, 9: 12309(1-8). 

18.Ma Suyu#; Li Hongkai#; Hong Jin#; Wang Han; Lu Xiaoshuang; Chen Ye; Sun Lin*; Yue Fangyu*; Tomm Jens W.; Chu Junhao; Chen Shiyou*; Origin of Band-Tail and Deep-Donor States in Cu2ZnSnS4 Solar Cells and Their Suppression through Sn-Poor Composition, Journal of Physical Chemistry Letters, 2019,10(24):7929-7936. 

19.Lian Qin; Zhu Xuanting; Wang Xudong; Bai Wei*; Yang Jing; Zhang Yuanyuan; Qi Ruijuan; Huang Rong; Hu Weida; Tang Xiaodong*; Wang Jianlu*; Chu Junhao; Ultrahigh-Detectivity Photodetectors with Van der Waals Epitaxial CdTe Single-Crystalline Films, Small, 2019, 15(17): 1900236(1-8). 

20.Li Chuanqing; Cui Anyang; Chen Fangfang; Jiang Kai; Shang Liyan; Jiang Jinchun; Hu Zhigao*; Chu Junhao; Preparation and characterization of narrow bandgap ferroelectric (K,Ba)(Ni,Nb)O3-delta films for mesoporous all-oxide solar cells, New Journal of Physics, 2019, 21: 013011(1-28). 

21.Jiang Chunli#; Zhang Yu#; Tian Bobo; Luo Chunhua; Zhong Ni; Wang Jianlu*; Meng Xiangjian; Peng Hui*; Duan Chungang; Chu Junhao; Efficient two-terminal artificial synapse based on a network of functionalized conducting polymer nanowires, Journal of Materials Chemistry C, 2019, 7(32): 9933-9938 

22.Hu Xiaobo#; Tao Jiahua#; Wang Youyang; Xue Juanjuan; Weng Guoen; Zhang Chuanjun*; Chen Shaoqiang*; Zhu Ziqiang; Chu Junhao; 5.91%-efficient Sb2Se3 solar cells with a radio-frequency magnetron-sputtered CdS buffer layer, Applied Materials Today, 2019, 16: 367-374. 

23.Chen Yan#; Yin Chong#; Wang Xudong#; Jiang Yiyang; Wang Haoliang; Wu Binmin; Shen Hong; Lin Tie; Hu Weida; Meng Xiangjian; Du Piyi; Chu Junhao;Wang Zongrong*; Wang Jianlu*; Multimode Signal Processor Unit Based on the Ambipolar WSe2-Cr Schottky Junction, Acs Applied Materials & Interfaces 2019,11(42): 38895-38901. 

24.Zhang Chuanjun; Tao Jiahua*; Chu Junhao; An 8.7% efficiency coelectrodeposited Cu2ZnSnS4 photovoltaic device fabricated via a pressurized postsulfurization process, Journal of Materials Chemistry C, 2018, 6(48): 13275-13282. 

25.Yin Chong#; Wang Xudong#; Chen Yan#; Li Dan#; Lin Tie*; Sun Shuo; Shen Hong; Du Piyi; Sun Jinglan; Meng Xiangjian; Chu Junhao; Wong Hon Fai; Leung Chi Wah; Wang Zongrong*; Wang Jianlu*; A ferroelectric relaxor polymer-enhanced p-type WSe2 transistor, Nanoscale, 2018, 10(4): 1727-1734. 

26.Wu Guangjian; Wang Xudong; Chen Yan; Wang Zhen; Shen Hong; Lin Tie; Hu Weida; Wang Jianlu*; Zhang Shantao*; Meng Xiangjian; Chu Junhao; Ultrahigh photoresponsivity MoS2 photodetector with tunable photocurrent generation mechanism, Nanotechnology, 2018, 29(48): 485204(1-17). 

27.Wang Xudong#; Chen Yan#; Wu Guangjian#; Wang Jianlu*; Tian Bobo; Sun Shuo; Shen Hong*; Lin Tie; Hu Weida; Kang Tingting; Tang Minghua*; Xiao Yongguang; Sun Jinglan; Meng Xiangjian; Chu Junhao; Graphene Dirac point tuned y ferroelectric polarization field, Nanotechnology, 2018, 29(13): 134002(1-6). 

28.Wang Haoliang; Chen Yan; Lim Engliang; Wang Xudong; Yuan Sijian; Zhang Xin; Lu Haizhou; Wang Jiao; Wu Guangjian; Lin Tie; Sun Shuo; Wang Jianlu;Zhan Yiqiang*; Shen Hong*; Meng Xiangjian; Chu Junhao; High-performance lead-free two-dimensional perovskite photo transistors assisted by ferroelectric dielectrics, Journal of Materials Chemistry C, 2018, 6(46): 12714-12720. 

29.Tu Luqi; Wang Xudong; Wang Jianlu*; Meng Xiangjian; Chu Junhao; Ferroelectric Negative Capacitance Field Effect Transistor, Advanced Electronic Materials, 2018, 4(11): 1800231(1-17). 

30.Pan Xiaohang; Xu Hao; Gao Yanqing; Zhang Yafeng; Sun Liaoxin; Li Dan;Wen Zhengji; Li Shimin; Yu Weiwei; Huang Zhiming; Wang Jianlu; Zhang Bo; SunYan; Sun Jinglan; Meng Xiangjian; Chen Xin; Dagens Beatrice; Hao Jiaming*; Shen Yue; Dai Ning; Chu Junhao; Spatial and Frequency Selective Plasmonic Metasurface for Long Wavelength Infrared Spectral Region, Advanced Optical Materials, 2018, 6(20): 1800337(1-7). 

31.Meng Caimin; Tian Bobo; Wang Haoliang; Sun Shuo; Shen Hong; Lin Tie*; Yu Jian; Sun Jinglan; Meng Xiangjian; Chu Junhao; Structural, electrical and magnetic properties of (110)-oriented BF-BZT-ST Films, Ceramics International, 2018, 44(8): 9053-9057. 

32.Li Dan#; Wang Xudong#; Chen Yan#; Zhu Sixin; Gong Fan; Wu Guangjian; Meng Caimin; Liu Lan; Wang Lin; Lin Tie*; Sun Shuo*; Shen Hong; Wang Xingjun; Hu Weida; Wang Jianlu; Sun Jinglan; Meng Xiangjian*; Chu Junhao; The ambipolar evolution of a high-performance WSe2 transistor assisted by a ferroelectric polymer, Nanotechnology, 2018, 29(10): 105202(1-10). 

33.Guo Yixin; Tao Jiahua; Jiang Jinchun*; Zhang Jungang; Yang Jianping; Chen Shaoqiang; Chu Junhao; Low temperature solution deposited niobium oxide films as efficient electron transport layer for planar perovskite solar cell, Solar Energy Materials and Solar Cells, 2018, 188: 66-72. 

34.Guo Yixin; Jiang Jinchun*; Zuo Shaohua*; Shi Fuwen; Tao Jiahua; Hu Zhigao; Hu Xiaobo; Hu Gujin; Yang Pingxiong; Chu Junhao; RF sputtered CdS films as independent or buffered electron transport layer for efficient planar perovskite solar cell, Solar Energy Materials and Solar Cells, 2018, 178: 186-192. 

35.Chen Yan#; Wang Xudong#; Wu Guangjian; Wang Zhen; Fang Hehai; Lin Tie*; Sun Shuo; Shen Hong; Hu Weida*; Wang Jianlu*; Sun Jinglan; Meng Xiangjian;Chu Junhao; High-Performance Photovoltaic Detector Based on MoTe2/MoS2 Van der Waals Heterostructure, Small, 2018, 14(9): 1703293(1-7). 

36.Xue Shuai; Zhao Xiaolin; Wang Jianlu*; Tian Bobo; Huang Hai; Meng Caimin; Liu Lan; Ye Lei*; Sun Jinglan; Meng Xiangjian; Zhang Xiaodong; Chu Junhao; Preparation of La0.67Ca0.23Sr0.1MnO3 thin films with interesting electrical and magnetic properties via pulsed-laser deposition, Science China-Physics Mechanics & Astronomy, 2017, 60(2): 027521(1-4). 

37.Wang Xudong; Liu Chunsen; Chen Yan; Wu Guangjian; Yan Xiao; Huang Hai; Wang Peng; Tian Bobo; Hong Zhenchen; Wang Yutao; Sun Shuo; Shen Hong;Lin Tie; Hu Weida; Tang Minghua*; Zhou Peng*; Wang Jianlu*; Sun Jinglan; Meng Xiangjian; Chu Junhao; Li Zheng*; Ferroelectric FET for nonvolatile memory application with two-dimensional MoSe2 channels, 2D Materials, 2017,4(2):025036(1-8). 

38.Tian Bobo#; Nukala Pavan#*; Ben Hassine Mohamed; Zhao Xiaolin; Wang Xudong; Shen Hong*; Wang Jianlu; Sun Shuo; Lin Tie; Sun Jinglan; Ge Jun; Huang Rong; Duan Chungang; Reiss Thomas; Varela Maria; Dkhil Brahim*; Meng Xiangjian; Chu Junhao; Interfacial memristors in Al-LaNiO3 heterostructures,Physical Chemistry Chemical Physics, 2017, 19(26): 16960-16968. 

39.Sha Tingting; Li Wenwu*; Chen Shiyou; Jiang Kai; Zhu Jiajun; Hu Zhigao; Huang Zhiming; Chu Junhao; Kokh Konstantin A.; Andreev Yury M.; Effects of S-doping on the electronic transition, band gap, and optical absorption of GaSe1-xSx single crystals, Journal of Alloys and Compounds, 2017, 721: 164-171 

40.Liu Shanbiao; Wu Xing*; Zhang Dongdong; Guo Congwei; Wang Peng; Hu Weida*; Li Xinming*; Zhou Xiaofeng; Xu Hejun; Luo Chen; Zhang Jian; Chu Junhao; Ultrafast Dynamic Pressure Sensors Based on Graphene Hybrid Structure, Acs Applied Materials & Interfaces, 2017, 9(28): 24148-24154. 

41.Cheng Long; Wei Laiming*; Liang Haixing; Yan Yuedong; Cheng Guanghui; Lv Meng; Lin Tie; Kang Tingting; Yu Guolin*; Chu Junhao; Zhang Zhenyu; Zeng Changgan*; Optical Manipulation of Rashba Spin-Orbit Coupling at SrTiO3-Based Oxide Interfaces, Nano Letters, 2017, 17(11): 6534-6539. 

42.Bai J. W.; Yang J.*; Zhang Y. Y.; Bai W.; Lv Z. F.; Tang K.; Sun J. L.;Meng X. J.; Tang X. D.*; Chu Junhao; The ac sub-coercive-field dielectric resonses of (Pb, Sr)TiO3 films at low temperature, Ceramics International, 2017, 43:S516-S519. 

43.Zhu Liangqing*; Shao Jun*; Chen Xiren; Li Yanqiu; Zhu Liang; Qi Zhen; Lin Tie; Bai Wei; Tang Xiaodong; Chu Junhao; Photoinduced magnetization effect in a p-type Hg1-xMnxTe single crystal investigated by infrared photoluminescence, Physical Review B, 2016, 94(15): 15520(1-9). 

44.Yin Wenhao; Chen Chao; Bai Wei*; Yang Jing; Zhang Yanyuan; Tang Xiaodong; Duan Chungang; Chu Junhao; Dielectric behavior dependence on temperature and Cr-doping contents of Aurivillius Bi5Ti3FeO15 ceramics, Ceramics International, 2016, 42(3): 4298-4305. 

45.Wu Guangjian; Wang Xudong; Wang Peng; Huang Hai; Chen Yan; Sun Shuo; Shen Hong; Lin Tie; Wang Jianlu*; Zhang Shangtao*; Bian Lifeng; Sun Jinglan; Meng Xiangjian; Chu Junhao; Visible to short wavelength infrared In2Se3-nanoflake photodetector gated by a ferroelectric polymer, Nanotechnology, 2016, 27(36):364002(1-7). 

46.Tao Jiahua; Liu Junfeng; Chen Leilei; Cao Huiyi; Meng Xiankuan; Zhang Yingbin; Zhang Chuanjun; Sun Lin; Yang Pingxiong; Chu Junhao*; 7.1% efficient co-electroplated Cu2ZnSnS4 thin film solar cells with sputtered CdS buffer layers, Green Chemistry, 2016, 18(2): 550-557. 

47.Tao Jiahua; Chen Leilei; Cao Huiyi; Zhang Chuanjun; Liu Junfeng; Zhang Yingbin; Huang Ling; Jiang Jinchun; Yang Pingxiong; Chu Junhao*; Co-electrodeposited Cu2ZnSnS4 thin-film solar cells with over 7% efficiency fabricated via fine-tuning of the Zn content in absorber layers, Journal of Materials Chemistry A, 2016, 4(10): 3798-3805. 

48.Jiang Kai; Zhang Peng; Zhang Jinzhong; Xu Guisheng; Li Wenwu; Hu Zhigao*; Chu Junhao; Relationship between negative thermal expansion and lattice dynamics in a tetragonal PbTiO3-Bi(Mg1/2Ti1/2)O3 perovskite single crystal, Rsc Advances, 2016, 6(4): 3159-3164. 

49.Huang Zhiming*; Zhou Wei; Huang Jingguo; Wu Jing; Gao Yanqing; Qu Yue; Chu Junhao; Directly tailoring photon-electron coupling for sensitive photoconductance, Scientific Reports, 2016, 6: 22938(1-7). 

50.Huang Hai; Wang Xudong; Wang Peng; Wu Guangjian; Chen Yan; Meng Caimin; Liao Lei; Wang Jianlu*; Hu Weida*; Shen Hong; Lin Tie; Sun Jinglan; Meng Xiangjian; Chen Xiaoshuang; Chu Junhao; Ferroelectric polymer tuned two dimensional layered MoTe2 photodetector, Rsc Advances, 2016, 6(90): 87416-87421. 

51.Huang Hai; Wang Jianlu; Hu Weida*; Liao Lei; Wang Peng; Wang Xudong; Gong Fan; Chen Yan; Wu Guangjian; Luo Wenjin; Shen Hong*; Lin Tie; Sun Jinglan; Meng Xiangjian; Chen Xiaoshuang; Chu Junhao; Highly sensitive visible to infrared MoTe2 photodetectors enhanced by the photogating effect, Nanotechnology, 2016, 27(44): 445201(1-7). 

52.Guo Yixin; Cheng Wenjuan*; Jiang Jinchun*; Zuo Shaohua; Shi Fuwen; Chu Junhao; The structural, morphological and optical-electrical characteristic of Cu2XSnS4 (X:Cu,Mg) thin films fabricated by novel ultrasonic co-spray pyrolysis, Materials Letters, 2016, 172: 68-71. 

53.Dai Mingzhi#*; Khan Karim#; Zhang Shengnan; Jiang Kemin; Zhang Xingye; Wang Weiliang; Liang Lingyan; Cao Hongtao; Wang Pengjun*; Wang Peng;Miao Lijing; Qin Haiming; Jiang Jun; Xue Lixin; Chu Junhao; A Direct Method to Extract Transient Sub-Gap Density of State (DOS) Based on Dual Gate Pulse Spectroscopy, Scientific Reports, 2016, 6: 24096(1-7). 

54.Cui L. J.*; Zeng Y. P.; Zhang Y.; Zhou W. Z.; Shang L. Y.; Lin T.; Chu Junhao; Beating patterns in the Shubnikov-de Haas oscillations originated from spin splitting in In0.52Al0.48As/In0.65Ga0.35As heterostructures: Experiment and calculation, Physica E-Low-Dimensional Systems & Nanostructures, 2016, 83: 114-118. 

55.Chen Yan; Wang Xudong; Wang Peng; Huang Hai; Wu Guangjian; Tian Bobo; Hong Zhenchen; Wang Yutao; Sun Shuo; Shen Hong; Wang Jianlu*; Hu Weida*; Sun Jinglan; Meng Xiangjian*; Chu Junhao; Optoelectronic Properties of Few-Layer MoS2 FET Gated by Ferroelectric Relaxor Polymer, Acs Applied Materials & Interfaces, 2016, 8(47): 32083-32088. 

56.Zhao Xiaolin; Wang Jianlu*; Tian Bobo; Liu Bolu; Wang Xudong; Huang Hai; Zou Yuhong; Sun Shuo; Lin Tie; Han Li; Sun Jinglan; Meng Xiangjian*; Chu Junhao; High temperature coefficient of resistance for a ferroelectric tunnel junction, Applied Physics Letters, 2015, 107(6): 062904(1-4).

57.Yue Fangyu; Tomm Jens W.*; Kruschke Detlef; Ullrich Bruno; Chu Junhao;Temperature dependence of the fundamental excitonic resonance in lead-salt quantum dots, Applied Physics Letters, 2015, 107(2): 022106(1-5). 

58.Bai Wei*; Chen Chao; Yang Jing; Zhang Yuanyuan; Qi Ruijuan; Huang Rong; Tang Xiaodong*; Duan Chungang; Chu Junhao; Dielectric behaviors of Aurivillius Bi5Ti3Fe0.5Cr0.5O15 multiferroic polycrystals: Determining the intrinsic magnetoelectric responses by impedance spectroscopy, Scientific Reports, 2015, 5: 17846(1-10). 

59.Tian Bobo*; Liu Yang; Chen Liufang; Wang Jianlu; Sun Shuo; Shen Hong*;Sun Jinglan; Yuan Guoliang; Fusil Stephane; Garcia Vincent; Dkhil Brahim*; Meng Xiangjian; Chu Junhao; Space-charge Effect on Electroresistance in Metal-Ferroelectric-Metal capacitors, Scientific Reports, 2015, 5: 18297(1-9). 

60.Tian B. B.; Chen L. F.; Liu Y.; Bai X. F.; Wang J. L.; Sun Sh; Yuan G. L.; Sun J. L.; Dkhil B.*; Meng X. J.*; Chu Junhao; Homogeneous switching mechanism in pure polyvinylidene fluoride ultrathin films, Physical Review B, 2015, 92(6): 060102(1-4). 

61.Huang Hai#; Wang Peng#; Gao Yanqing; Wang Xudong; Lin Tie*; Wang Jianlu*; Liao Lei; Sun Jinglan; Meng Xiangjian; Huang Zhiming*; Chen Xiaoshuang Chu Junhao; Highly sensitive phototransistor based on GaSe nanosheets, Applied Physics Letters, 2015, 107(14): 143112(1-4). 

62.Tao Jiahua; Zhang Kezhi; Zhang Chuanjun; Chen Leilei; Cao Huiyi; Liu Junfeng; Jiang Jinchun; Sun Lin*; Yang Pingxiong; Chu Junhao; A sputtered CdS buffer layer for co-electrodeposited Cu2ZnSnS4 solar cells with 6.6% efficiency, Chemical Communications, 2015, 51(51): 10337-10340. 

63.Tang Kai; Bai Wei*; Liu Jia; Yang Jing; Zhang Yuanyuan; Duan Chungang; Tang Xiaodong*; Chu Junhao; The effect of Mn doping contents on the structural, dielectric and magnetic properties of multifenoic Bi5Ti3FeO15 Aurivillius ceramics,Ceramics International, 2015, 41: S185-S190. 

64.Liu B. L.; Tian B. B.; Sun J. L.*; Liu Y.*; Wang J. L.; Sun Sh; Meng X. J.; Chu Junhao; Confinement effect on coercive field in relaxor terpolymer nanowires, Applied Surface Science, 2015, 355: 473-476.

65.Jiang Kai; Zhao Run; Zhang Peng; Deng Qinglin; Zhang Jinzhong; Li Wenwu; Hu Zhigao*; Yang Hao; Chu Junhao; Strain and temperature dependent absorption spectra studies for identifying the phase structure and band gap of EuTiO3 perovskite films, Physical Chemistry Chemical Physics, 2015, 17(47): 31618-31623. 

66.Huang Zhiming*; Zhou Wei; Ouyang Cheng; Wu Jing; Zhang Fei; Huang Jingguo; Gao Yanqing; Chu Junhao; High performance of Mn-Co-Ni-O spinel nanofilms sputtered from acetate precursors, Scientific Reports, 2015, 5: 10899(1-8). 

67.He Xinfeng; Zeng Yijie; Xu Xiaofeng*; Gu Congcong; Chen Fei; Wu Binhe; Wang Chunrui; Xing Huaizhong; Chen Xiaoshuang*; Chu Junhao; Orbital change manipulation metal-insulator transition temperature in W-doped VO2, Physical Chemistry Chemical Physics, 2015, 17(17): 11638-11646.

68.Xu Liping; Jiang Kai; Zhang Jinzhong; Xu Guisheng; Hu Zhigao*; Chu Junhao; Phase transitions and thermotropic phase boundaries in MnO2-doped (K0.5Na0.5)NbO3-0.05LiNbO3 single crystals: Raman scattering evidence at elevated temperatures, Applied Physics Letters, 2015, 106(12): 122901(1-5).

69.He Xinfeng; Xu Jing; Xu Xiaofeng*; Gu Congcong; Chen Fei; Wu Binhe*;Wang Chunrui*; Xing Huaizhong; Chen Xiaoshuang; Chu Junhao; Negative capacitance switching via VO2 band gap engineering driven by electric field, Applied Physics Letters, 2015, 106(9): 093106(1-5). 

70.Tian B. B.; Bai X. F.; Liu Y.; Gemeiner P.; Zhao X. L.; Liu B. L.; Zou Y.H.; Wang X. D.; Huang H.; Wang J. L.*; Sun Sh; Sun J. L.; Dkhil B.*; Meng X. J.;Chu Junhao; beta phase instability in poly(vinylidene fluoride/trifluoroethylene) thin films near beta relaxation temperature, Applied Physics Letters, 2015, 106(9): 092902(1-4).