个人简介Personal Profile
刘骅锋,博导,物理学院/集成电路学院双聘教授,引力中心主任助理,国家优秀青年科学基金获得者。一直从事面向地球科学和空间应用的高精度MEMS惯性传感器及重力测量仪器方面研究。兼任中国仪器仪表学会地质仪器分会理事,IEEE CASS-EDS-SSCS武汉联合分会副主席,中国微米纳米技术学会高级会员,中国惯性技术学会高级会员,担任《Microsystems & Nanoengineering》和《中国惯性技术学报》等期刊编委。在Microsystems & Nanoengineering, IEEE TIE, JMEMS, APL, OL, Space Science Review等期刊以及 IEEE MEMS, Transducers, AGU等国际会议发表SCI/EI论文80余篇,英文专著章节1章,授权专利20余项,荣获2020年国际微系统及纳米工程(MINE2020)青年科学家奖。近五年主持国家自然科学基金优青项目、面上项目、国家重点研发计划“智能传感器”专项课题、国家科技重大专项课题等十余项。曾负责研制的MEMS星载微震仪实现新一代载人航天飞船试验船在轨微重力环境测量,目前担任嫦娥七号科学载荷月震仪型号副主任设计师负责MEMS月震计研制。讲授国家级精品课程,指导多名学生获得国家奖学金,指导学生获得“第六届中国研究生创芯大赛”一等奖及创“芯”之星,并获“优秀指导教师奖”。
课题组经费及招生名额充足,每年面向物理、机械、仪器、光电、集成电路、自动化等相关理工科专业方向招收博士生4~6名,硕士生5~8名。毕业生可推荐英国帝国理工学院、比利时鲁汶大学/IMEC、美国加州伯克利、新加坡南洋理工、澳门大学等海外著名高校继续从事博士和博士后研究。
欢迎相关研究方向海内外优秀青年学者加盟课题组共创未来,常年招聘专任教师、专职研究员、博士后及工程技术人员。
主持的国家级科研项目:
[1] 国家自然科学基金优青项目,“高精度加速度传感”,2024.1-2026.12;
[2] 国家自然科学基金面上项目,“基于多物理量信息融合的MEMS相对重力仪误差机理及补偿方法研究”,2024.1-2026.12;
[3] 国家科技重大专项课题,“嫦娥七号MEMS月震计”,2021.4-2025.12;
[4] 国家重点研发计划课题,“三轴加速度传感器高密度集成与高精度测控”,2021.12-2024.11;
[5] 纵向重点项目,“量子XXX微加速度传感器技术”,2023.6-2026.5;
[6] 纵向重点项目,“XXX高精度加速度计XXX”,2018.9-2020.12;
代表性论文:(* 为通信/共同通讯)
[1]. Ziqiang Qu, Hao Ouyang, Wen Xiong, Qiangwei Xu, Yuan Wang*, and Huafeng Liu*, A Nano-g MOEMS Accelerometer Featuring Electromagnetic Force Balance with 157-dB Dynamic Range, IEEE Transactions on Industrial Electronics (2023) 7:26
[2]. Chen Wang, Yuan Wang, Weidong Fang, Xiaoxiao Song, Aojie Quan, Michiel Gidts, Hemin Zhang, Huafeng Liu*, Jian Bai*, Sina Sadeghpour, and Michael Kraft, Design of a Large-range Rotary Microgripper with Freeform Geometries using a Genetic Algorithm, Microsystems & Nanoengineering (2022) 8:3 (封面文章)
[3]. Ziqiang Qu, Hao Ouyang, Huafeng Liu*, Chenyuan Hu*, Liang-Cheng Tu, and Zebing Zhou, 2.4 ng/√Hz low-noise fiber-optic MEMS seismic accelerometer, Optics Letters (2022) 47:3
[4]. Yuan Wang, Xiaoxiao Song, Jingqian Xi, Fangzheng Li, Lei Xu, Huafeng Liu*, Chen Wang*, Shuangyang Kuang*, Liang-Cheng Tu, Michael Kraft, and Chun Zhao. A Resonant Lorentz-Force Magnetometer Exploiting Blue Sideband Actuation to Enhance Sensitivity and Resolution, Journal of Microelectromechanical Systems, (2022) 31:3162015
[5]. Yuan Wang, Xiaoxiao Song, Fangzheng Li, Lu Gao, Chengxin Li, Jingqian Xi, Huafeng Liu*, Chun Zhao*, Chen Wang*, Liang-Cheng Tu, and Michael Kraft. A Resonant Lorentz-Force Magnetometer Featuring Slotted Double-Ended Tuning Fork Capable of Operating in a Bias Magnetic Field, Journal of Microelectromechanical Systems, (2021) 30:3113769
[6]. Qiu Wang, Zongfeng Li, Huafeng Liu*, Qiangwei Xu, Shitao Yan*, Leiming Zhang, Shaolin Zhang, Xiaoxiao Song, Ziqiang Qu, Li Liu, Jinquan Liu, and Liang-Cheng Tu*, MEMS Microgravity Measurement Module with Nano-g/√Hz Noise Floor for Spaceborne Higher-Level Microgravity Scientific Experiment Applications, ACS Applied Electronic Materials, 3 (2021): 3379-3390.
[7]. Chen Wang, Xiaoxiao Song, Dongwei Fang, Fang Chen, Ioannis Zeimpekis, Yuan Wang, Aojie Quan, Jian Bai*, Huafeng Liu*, and Michael Kraft, Design of freeform geometries in a MEMS accelerometer with a mechanical motion pre-amplifier based on a genetic algorithm, Microsystems & Nanoengineering (2020) 6: 104
[8]. Qiu Wang, Xiaofang Ren, Shimin Jiao, Xiangzhou Lei, Shaolin Zhang, Huafeng Liu*, Pengshun Luo* and Liangcheng Tu, A diamagnetic levitation based inertial sensor for geophysical application, Sensors and Actuators A: Physical. (2020) 312: 112122
[9]. Huafeng Liu*, W.T. Pike*, C. Charalambous, A.E. Stott, Passive Method for Reducing Temperature Sensitivity of a Microelectromechanical Seismic Accelerometer for Marsquake Monitoring Below 1 Nano-g, Physical Review Applied, (2019) 10: 1
[10]. Huafeng Liu* and W. T. Pike*, A micromachined angular-acceleration sensor for geophysical applications, Applied Physics Letters, (2016) 17: 109