基本信息
招生专业
个人简介
周长见,现任华南理工大学微电子学院/集成电路学院副院长,博导。2012年清华大学电子科学与技术专业获得博士学位,先后在香港科技大学、香港理工大学从事科研工作。主要研究方向为: (1) 面向未来通信(5G通信,卫星通信)的射频前端系统和关键电子元件;(2) 集成化智能传感器;(3)压电声学电子器件;(4)低维材料电子器件。近年来,在知名期刊和会议(Science Advances, Nano Letters, Advanced Functional Materials, IEEE EDL, IEEE TED, IEDM等)发表论文130余篇,论文总引用3300余次。授权中国发明专利17项(一项获得中国专利优秀奖),授权美国发明专利2项。2018年获广东省引进高层次人才青年拔尖人才称号, 2024年获得广东省科技进步二等奖。近年来在国际会议 ICSICT, IEEE ASICON, IEEE EDSSC, IEEE Nano 等发表邀请报告10多次,并多次担任香港、加拿大等海内外基金的评审专家。
Changjian Zhou currently serves as Associate Dean of the School of Microelectronics/Integrated Circuit at South China University of Technology and is a Doctoral Supervisor. He earned his Ph.D. in Electronic Science and Technology from Tsinghua University in 2012, and subsequently conducted research at the Hong Kong University of Science and Technology and the Hong Kong Polytechnic University. His main research areas include: (1) RF front-end systems and key electronic components for future communication (5G communication, satellite communication); (2) Integrated intelligent sensors; (3) Piezoelectric acoustoelectronic devices; (4) Low-dimensional material electronic devices. In recent years, he has published over 130 papers in prestigious journals and conferences such as Science Advances, Nano Letters, Advanced Functional Materials, IEEE EDL, IEEE TED, and IEDM, with a total of over 3,300 citations. He holds 15 authorized Chinese invention patents (one of which received the Outstanding Chinese Patent Award) and 2 authorized U.S. invention patents. In 2018, he was recognized as a Guangdong Province High-Level Talent (Youth Top Talent), and in 2024, he received the Second Prize of Guangdong Provincial Science and Technology Progress Award. In recent years, he has delivered over 10 invited presentations at international conferences including ICSICT, IEEE ASICON, IEEE EDSSC, and IEEE Nano, and has served multiple times as a review expert for funding agencies in Hong Kong, Canada, and other regions.
教育经历
2007.09-2012.07:博士 微电子与固体电子学 清华大学
2003.09-2007.07:学士 微电子学 西安电子科技大学
工作经历
2025.09-至今 教授,华南理工大学
2016.09-2025.09 副教授,华南理工大学
2015.02-2016.07 Research Associate, 香港理工大学
2012.11-2015.02 访问学者, 香港科技大学
2013.02-2013.03 访问研究员,东京大学
2012.07-2012.11 科研助理,清华大学
研究方向
面向未来通信(5G通信,卫星通信)的射频前端系统和关键电子元件;智能传感器与系统集成;压电声学电子器件;低维材料电子器件
授课课程
本科生必修课程:半导体器件
本科生必修课程:集成电路制造技术
研究生课程:Microsystem design and fabrication
学术任职
IEEE高级会员(Senior Member)
中国微米纳米技术学会高级会员
担任香港RGC、加拿大魁北克自然基金等项目评审
担任Advanced Materials,Nature communications,Advanced Energy Materials, Sensors and Actuators, IEEE Electron Device Letters,Nanoscale, Applied Physics Letters,IEEE TED,IEEE Trans.Nanotechnology等10余种期刊审稿人
科研项目
1.国家自然基金(面上项目) 基于超薄铁电单晶的非制冷红外探测器超快响应机制与新型器件研究 2026.01-2029.12 主持
2.国家自然科学基金(青年项目) 超高频声表面波谐振器的温度漂移与补偿机理研究 2019.01-2021.12 主持
3.国家自然基金(重大项目课题) 基于异质集成的高频大带宽射频声学滤波器 2023.11-2027.10 参与
4.广东省基础与应用基础研究基金(面上项目) 基于二维材料异质结的自驱动光电传感器研究 2021.1-2023.12 主持
5.广东省国际科技合作项目 基于碳基纳米材料的集成电路互连器件研究 2020.01 - 2021.12 主持
6.广东省重点领域研发计划 汽车芯片安全可靠检测技术及应用 2022.12-2025.11 课题主持
7.广州市对外科技合作专项 面向卫星移动通信系统手持终端的一体化SIP芯片研发 2018.04-2020.03 主持
8.广州市一般项目 深亚微米尺度新型集成电路互连器件研究 2018.04-2020.03 主持
代表性科研成果(论文、专利等)
1.Yueyi Sun, Siming Liu, Jiefei Zhu, Dexing Liu, Jiwei Chen, Yingjie Luo, Yihong Sun, Min Zhang, Mansun Chan, Cary Y. Yang, Changjian Zhou. Comprehensive analog signal processing platform enabled by acoustic charge transport in two-dimensional materials. Science Advances, 11, eady7476, 2025.
2.Jiwei Chen, Changjian Zhou, Yingjie Luo, Wenbo Li, Xiankai Lin, Chunlei Zhang, Siyu Liao, Ruolan Wen, Guitian Qiu, Qian Zhang, Jianxian Yi, Wenhan Lei, Lin Wang, Syed Rizwan, Pei Lin, Qijie Liang. Artificial axon with dendritic-like plasticity by biomimetic interface engineering of anisotropic two-dimensional tellurium. Nano Letters, 25, 21, 8619–8627, 2025.
3.Yingjie Luo, Jiwei Chen, Aumber Abbas, Wenbo Li, Yueyi Sun, Yihong Sun, Jianxian Yi, Xiankai Lin, Guitian Qiu, Ruolan Wen, Yang Chai, Qijie Liang, Changjian Zhou. Robust Giant Tunnel Electroresistance and Negative Differential Resistance in 2D Semiconductor/α-In2Se3 Ferroelectric Tunnel Junctions. Advanced Functional Materials, 34(34), 2407253, 2024. (Frontispiece论文)
4.Yihong Sun, Jiwei Chen, Yueyi Sun, Yingjie Luo, Ran Huo, Mengqi Che, Han Zhang, Ruolan Wen, Wen Lei, Changjian Zhou. Heterostructure‐Based Self‐Powered 2D Photodetectors: Devices and Applications. Laser & Photonics Reviews, e01848, 2025.
5.Yihong Sun, Jiefei Zhu, Yingjie Luo, Jiwei Chen, Yueyi Sun, Min Zhang, Wen Lei, Cary Y. Yang, and Changjian Zhou. Boosting the Self-Driven Properties of 2D Photodetectors through Synergistic Asymmetrical Effects. ACS Applied Materials & Interfaces, 17 (34), 48650-48657, 2025.
6.Jiwei Chen, Yihong Sun, Yingjie Luo, Yueyi Sun, Ruolan Wen, Aumber Abbas, Mengqi Che, Changjian Zhou. Clock‐Free Optical Communication Based on Interface Defect Control Bimodal Neuromorphic Devices. Advanced Electronic Materials, e00580, 2025. (Front Cover论文)
7.Ruolan Wen, Zichao Ma, Yingjie Luo, and Changjian Zhou. Giant tunneling electroresistance ratio in two-dimensional α-In2Se3-based asymmetric van der Waals ferroelectric heterojunctions. Physical Review Applied, 23, 064010, 2025.
8.Changjian Zhou, Shouyong Zhang, Zhe Lv, Zichao Ma, Cui Yu, Zhihong Feng, Mansun Chan. Self-driven WSe2 photodetectors enabled with asymmetrical van der Waals contact interfaces. npj 2D Materials and Applications, 4(1): 46, 2020.
9.Yanmei Xue, Changjian Zhou, Xiu Yin Zhang, Mansun Chan. A flexible high quality-factor bulk acoustic resonator enabled with transferred single-crystal piezoelectric thin film for sensing applications. Sensors and Actuators A: Physical, 326: 112721, 2021.
10.Jin-Xin Chen, Bing-Yan Liu, Yang Gu, Rongsheng Chen, Bin Li, Changjian Zhou. Influence of Ultralow Temperature on Quasi-2-D β-Ga2O3 Field-Effect Transistors. IEEE Transactions on Electron Devices, 71(7), 4233-4239, 2024.
11.Xiangzhen Cai, Yiqiang Chen, Rui Gao, Changjian Zhou. Degradation and Mechanism of D-Mode AlGaN/GaN MIS-HEMTs Under the Combination Action of Hydrogen and HTGB Stress. IEEE Transactions on Electron Devices, 70(1): 36-42, 2023.
12.Xiaodong Yang, Y. Q. Chen, Bo Hou, Xinbing Xu, Jingliang Wang, Yun Huang, Qiang Chen, Changjian Zhou. Degradation Behavior and Defect Analysis for SiC Power MOSFETs Based on Low-Frequency Noise Under Repetitive Power-Cycling Stress. IEEE Transactions on Electron Devices, 68(2): 666-671, 2021.
13.Weiheng Shao, Zhiqiang Yi, Xiao He, Wenxiao Fang, Changjian Zhou, Jiesheng Liu. Novel Calibration Method for the Asymmetric Probing in the Near-Field Measurement with a Dual Probe. IEEE Transactions on Microwave Theory and Techniques, 69(12): 5439-5448, 2021.
14.Yinghui Chen, Weiheng Shao, Liuxing He, Changjian Zhou, Yiqiang Chen. Influence Analysis of Asymmetric Correction Method on the Key Characteristics of the Electromagnetic Dual Probing System. IEEE Sensors Journal, 24(6), 8361-8370, 2024.
15.Changjian Zhou, Anshul A. Vyas, Patrick Wilhite, Phillip Wang, Mansun Chan, Cary Y. Yang. Resistance determination for sub-100-nm carbon nanotube vias. IEEE Electron Device Letters, 36(1): 71-73, 2014.
16.Changjian Zhou, Yi Yang, Hualin Cai, Tian-Ling Ren, Mansun Chan, Cary Y. Yang. Temperature-compensated high-frequency surface acoustic wave device. IEEE Electron Device Letters,34(12): 1572-1574, 2013.
17.Changjian Zhou, Salahuddin Raju, Bin Li, Mansun Chan, Yang Chai, Cary Y. Yang. Self‐driven metal–semiconductor–metal WSe2 photodetector with asymmetric contact geometries. Advanced Functional Materials, 28(45): 1802954, 2018.
18.Changjian Zhou, Yuda Zhao, Salahuddin Raju, Yi Wang, Ziyuan Lin, Mansun Chan, Yang Chai. Carrier type control of WSe2 field‐effect transistors by thickness modulation and MoO3 layer doping. Advanced Functional Materials, 26(23): 4223-4230, 2016.
19.Changjian Zhou, Xinsheng Wang, Salahuddin Raju, Ziyuan Lin, Daniel Villaroman, Baoling Huang, Helen Lai-Wa Chan, Mansun Chan, Yang Chai. Low voltage and high ON/OFF ratio field-effect transistors based on CVD MoS2 and ultra high-k gate dielectric PZT. Nanoscale, 7(19): 8695-8700, 2015.
20.Changjian Zhou, Yi Yang, Yi Shu, Hualin Cai, Tian-Ling Ren, Mansun Chan, Jian Zhou, Hao Jin, Shurong Dong, Cary Y. Yang. Visible-light photoresponse of AlN-based film bulk acoustic wave resonator. Applied Physics Letters, 102(19): 191914, 2013.
授权专利:
[1]周长见;陈基伟;孙一泓.一种铌酸锂光子芯片的混合存算架构及其实现方法.发明专利, 2025100599270, 2025-3-3.
[2]周长见;陈基伟;孙一泓.一种低维二氧化碲晶体的异质外延方法, 发明专利, 202410402261X, 2024-10-01.
[3]邵伟恒;陈颖慧;陈义强;周长见.双端口近场探头非对称补偿方法、装置、设备和存储介质, 发明专利, 2023106521887, 2023-09-01.
[4]陈义强;龙浩帆;侯波;周长见.一种功率转换电路开关器件退化机制监测方法,发明专利,ZL 20241 1054456.6,2024-11-1.
[5]周长见;余鹏飞;陈志坚.一种温度自适应FBAR振荡电路, 发明专利, 2019107012426, 2023-07-14.
[6]周长见;李丹花;郭思聪;张传俊;邓永健.一种高频声表面波谐振器及其制备方法, 发明专利, 2022100895586, 2023-03-24.
[7]吴子莹;陈志坚;周长见;李斌.一种基于delta-sigma调制器的锁相环小数分频方法, 发明专利, 2021101881961, 2022-03-18.
[8]陈志坚;吴子莹;周长见;李斌.一种高速8/9预分频器电路与其控制方法及包括其的锁相环, 发明专利, 2021101881798, 2022-03-11.
[9]余鹏飞;陈志坚;周长见;郑彦祺;李斌.一种基于三电感耦合的高稳定超宽带调谐压控振荡器, 发明专利, 2020109302464, 2021-10-15.
[10]周长见;张首勇;吕喆.一种具有低暗电流的自驱动型光电探测器及其制备方法, 发明专利, 2020103601852, 2021-07-20.
[11]周长见;吕喆;冯志红;蔚翠.一种基于二维半导体材料的红外探测元件及其制备方法,发明专利, 2018115031299, 2021-04-06.
[12]周长见;廖阳.一种基于碱金属溶液催化的二硫化钼制备方法, 发明专利, 2019112320747, 2021-03-16.
[13]周长见;王琪.一种采用声波谐振器和碳纳米管的探测器及其制造方法, 发明专利, 2019100020366, 2021-01-15.
[14]周长见;李斌.一种温度补偿表面声波器件及其制备方法, 发明专利, 2017103299998, 2021-01-05.
[15]余鹏飞;陈志坚;周长见;吴子莹;李斌;周绍林.一种快速频率锁定的数模混合锁相环, 发明专利, 2019111262458, 2020-05-15.
[16]周长见;吕喆;冯志红;蔚翠.一种MSM光电探测器及其制作方法, 发明专利, 2018105788090, 2020-03-17.
[17]吴子莹;陈志坚;周长见;余鹏飞;李斌;周绍林.一种锁相环的频率锁定方法及电路, 发明专利, 2019111266073, 2020-06-30.
[18]Zhijian Chen; Ziying Wu; Changjian Zhou; Pengfei Yu; Bin Li; Shaolin Zhou. Frequency locking method and circuit for phase-locked loop. 美国专利, US 11641208B2, 2023-05-02.
[19]Weiheng Shao, Yinghui Chen, Yiqiang Chen, Changjian Zhou. Asymmetric compensation method and apparatus for two-port near field probe, computer device, and storage medium. 美国专利,US12241948 B2,2025-03-04.