个人信息
科学研究
教育教学
社会兼职
论著成果
荣誉奖励

储昭强

Chu Zhao Qiang

部门：青岛创新发展基地

学科：信息与通信工程

职务：

职称：副教授

指导资格：博士生导师
硕士生导师

电话： 0451-82531768

传真： 0451-82531768

邮箱： zhaoqiangchu@hrbeu.edu.cn

邮编： 266500

地址：山东省青岛市黄岛区滨海街道科教二路167号

个人简介

储昭强，北京大学理学博士，哈尔滨工程大学预聘教授/博导，海洋新型传感器研究所副所长、党支部书记。长期围绕压电/磁电器件，集成磁探测与低频磁通信开展工作。主持国家级项目/课题4项，省部级项目2项。截止目前在Research，Advanced Materials、Advanced Energy Materials, Advanced Materials Technologies，Physical Review Applied、Applied Physics Letters、Science Bulletin等国际高水平期刊上共发表 SCI论文50余篇，1篇文章入选ESI高被引论文。担任期刊客座编辑：Sensors, Crystals；青年编委：Journal of Advanced Dielectrics; 国家自然科学基金委员会评议专家；山东省科技专家库专家；全国磁性材料与器件专家委员会委员；以及IEEE Transactions on Industrial Electronics, Applied Physics Letters, APL materials, Journal of Physics D: Applied Physics,Electronics等期刊审稿人。

教育经历

2011年9月-2015年6月，北京科技大学，材料科学与工程学院，学士
2018年9月-2019年8月，[美国]东北大学，工学院，访问学者
2015年9月-2020年7月，北京大学，工学院，博士研究生

工作经历

2020/8至今，哈尔滨工程大学，水声工程学院/青岛创新发展基地，副教授
2022/9至今, 哈尔滨工程大学，青岛创新发展基地，海洋新型传感器研究所副所长、党支部书记
2023/12至今, 哈尔滨工程大学，青岛创新发展基地, 预聘教授
2024/4至今, 哈尔滨工程大学，青岛创新发展基地，博士生导师

研究方向

压电/磁电器件（传感器，机械天线）
磁传感、定位与通信应用
环境能量回收与自供能传感器

承担项目

[1] JKW 1**重点项目，2021/11-2026/11（课题联合承研单位负责人）
[2] JKW 1**重点项目，2021/11-2023/11（课题负责人）
[3] 2022年国家重点研发计划（智能传感器）任务，磁电耦合自供能磁场敏感元件及传感器，2022YFB3205701，2023/1 - 2025/12（课题联合承研单位负责人）
[4] 国家自然科学基金区域创新发展联合基金重点项目任务，基于磁电耦合效应的低频弱磁传感器机理与关键技术研究，U22A2019，2023/1 - 2026/12（项目联合承研单位负责人）
[5] 国家自然科学基金，面向低频机械天线的铁电/铁磁复合材料双稳态特性研究, 2022/1 - 2024/12（主持）
[6] 山东省自然科学基金，磁电谐振器中弹簧硬化行为研究，2022/1 - 2024/12（主持）
[7] 国家重点实验室基金，海底地层磁场传感器关键技术研究，2021/11 - 2023/11（主持）
[8] 国网智能电网研究院有限公司横向课题，强场激励下磁电敏感元件性能仿真及影响因素研究，2023/8 - 2024/7（主持）

学术交流

[1] Nonlinearity in Magnetoelectric Mechanical Antennas, IEEE IMWS-AMP2022 conference, Guangdong China, December 12-14, 2022(Invited) 【Online】
[2]Significantly Enhanced Power Generation from Extremely Low-Intensity Magnetic Field via a Clamped-Clamped Magneto-Mechano-Electric Generator, The EHS 2022 international conference, Virginia, USA, September 7 – 9, 2022(Invited) 【Online】
[3] 中国智能传感器产业大会暨第三届先进材料前沿学术会议, 12月28-29日，2020，青岛，中国（邀请报告）
[4] 2020 6th International Conference on Electronic Materials and Nanotechnology for Green Environment (ENGE)， Nov. 1-4, 2020, Jeju, Korea (Invited)
[5] APS March Meeting, Mar. 4-8, 2019, Boston, MA (口头报告)
[6] The 2019 IEEE MIT-S International microwave Symposium (IMS), 2019, Boston, MA
[7] The 11th China-Japan symposium on Ferroelectric Materials and Their Applications, Sep. 22-25, 2019, Nanjing, China (Invited)
[8] 12th Pacific Rim Conference on Ceramic and Glass Technology, May 21-26, 2017, Hawaii（口头报告）

招生信息

硕士研究生3-5名/年，博士研究生1-2名/年。欢迎信通、材料、电子、物理、机械等专业的学生与我联系！

本科生授课课程

研究生授课课程

【1】虚拟仪器设计
【2】水下传感与计量

实践性教学

教学研究课题

社会兼职

期刊青年编委：Journal of Advanced Dielectrics
期刊客座编辑：Sensors, Crystals
国家自然科学基金委员会评议专家；
山东省科技专家库专家；
全国磁性材料与器件专家委员会委员；
期刊审稿人：IEEE Transactions on Industrial Electronics, Applied Physics Letters, APL materials, Electronics, Journal of Physics D: Applied Physics, IEEE Transactions on Magnetics, IEEE Sensors Journal, Review of Scientific Instruments, Measurement, Journal of Alloys and Compounds等等

专利成果

出版著作

《Thin-film-based magnetoelectric heterostructures》（Elsevier出版社）

发表论文

GoogleScholar 链接：？Zhaoqiang Chu？ - ？Google 学术搜索？
ResearchGate 链接：Zhaoqiang Chu (researchgate.net)
[1] Chu, Z. et al. Enhanced Resonance Magnetoelectric Coupling in (1-1) Connectivity Composites. Advanced Materials, 29, 1606022(2017).
[2] Chu, Z. et al. Significantly Enhanced Power Generation from Extremely Low‐Intensity Magnetic Field via a Clamped‐Clamped Magneto‐Mechano‐Electric Generator. Advanced Energy Materials, 12,2103345(2022).
[3] Li, Y. et al. Piezoelectric 1T Phase MoSe2 Nanoflowers and Crystallographically Textured Electrodes for Enhanced Low‐Temperature Zinc‐Ion Storage. Advanced Materials 35, 2208615(2022).
[14] Chu, Z. et al. A Multilayered Magnetoelectric Transmitter with Suppressed Nonlinearity for Portable VLF Communication. Research 6, 0208(2023).
[5] Chu, Z. et al. Voltage-Driven Nonlinearity in Magnetoelectric Heterostructures. Physical Review Applied 12, 044001(2019).
[6] Chu, Z. et al. Jumping and hysteresis effect in 1–1-typed magnetoelectric resonators. Applied Physics Letters 119, 182901(2021).
[7] Chu, Z. et al. Low-power eddy current detection with 1-1 type magnetoelectric sensor for pipeline cracks monitoring. Sensors and Actuators A: Physical 318, 112496(2021).
[8] Min, S., Wang, R., Wang, Y., Song, K. & Chu, Z. Reduced resonance frequency and enhanced coupling coefficient in fishtailing magnetoelectric resonator. Applied Physics Letters 123, 152901(2023).
[9] Chu, Z. et al. Enhanced SLF radiation efficiency in a piezoelectrically driven magnetic pendulum transmitter. Applied Physics Letters 124, 072901(2024).
[10]Chu, Z., PourhosseiniAsl, M. & Dong, S. Review of multi-layered magnetoelectric composite materials and devices applications. Journal of Physics D: Applied Physics 51, 243001(2018).

荣誉

北京市优秀毕业生，2015
北京大学工学院“学术十杰”， 2018
IOP中国高被引论文奖，2021
中国仪表功能材料分会电子元器件关键材料与技术专委会“学术新秀奖”， 2023

奖励

Personal Information

Introduction：
Education Background :
Professional Experience :
Qualifications and Skills :
Academic Positions and Titles :

Research

Research Fields：
Projects：
Honors and Awards、Academic Activities：

Teaching

Admission:
Courses:
Practical Teaching：

Publications

Books:
Journal and Conferences:
Patents:
Software Copyrights:	"

CV

Zhaoqiang Chu
Ph.D/Associated Professor
College of Underwater Acoustic Engineering
QINGDAO Innovation and Development Base
Harbin Engineering University
Email: zhaoqiangchu@hrbeu.edu.cn

Education:
Sep.2011-Jul.2015 B.S. University of Science and Technology Beijing, Beijing, China.
Sep.2015-Jul.2020 Ph.D. College of Engineering, Peking University, Beijing, China (Advisor: Shuxiang Dong, Chinese Most Cited Researchers (Elsevier))

Professional Experience:
Jul.2020-Now, Associated Professor, College of Underwater Acoustic Engineering, Harbin Engineering University
Sep.2018-Aug.2019 Visiting Scholar, Department of Electrical and Computer Engineering Department, College of Engineering, Northeastern University, Boston, MA, 02115, USA. (Advisor: Professor Nianxiang Sun, IEEE Fellow)

Research Areas：

Multiferroic composites and multi-physics coupling
Magnetoelectric magnetic field sensors
Magnetoelectric mechanical antennas
Marine energy harvesting and wireless transmission

Academic roles:
[1] Invited reviewer
IEEE Transactions on Industrial Electronics,       Applied Physics Letters,
APL materials, Journal of Physics D: Applied Physics,
IEEE Transactions on Magnetics, IEEE Sensors Journal,
Review of Scientific Instruments Engineering Research Express
AIP advances Measurement
[2] Invited Guest Editor
Sensors
[3] Young Editorial Board Member
Journal of Advanced Dielectrics

Publication list:
[1] Y.Li,X. Dong,Z. Xu,M. Wang,R. Wang,J. Xie,Y. Ding,P. Su,C. Jiang,X. Zhang,L. Wei,J. Li,Z. Chu^*,J. Sun,C. Huang, Piezoelectric 1T Phase MoSe2 Nanoflowers and Crystallographically Textured Electrodes for Enhanced Low-Temperature Zinc-Ion Storage, Advanced Materials 2022 Nov 19:e2208615
[2]   Chu Z, Shi H, Shi W, Liu G, Wu J, Yang J, Dong S. Enhanced Resonance Magnetoelectric Coupling in (1-1)    Connectivity Composites. Advanced Materials, 2017, 29 (19): 1606022.
[3] Chu Z^*, Sun Z, Wang B, Song K, Wang Z, Gao J, Dong S. Significantly enhanced power generation from extremely low-intensity magnetic field via a clamped-clamped magneto-mechano-electric generator, Advanced Energy Materials, 2022 12: 2103345
[4]   Chu Z^*, Dong C, Tu C, He Y, Liang X, Wang J, Wei Y, Chen H, Gao X, Lu C, Zhu Z, Lin Y, Dong S, McCord J, Sun N-X. Voltage-Driven Nonlinearity in Magnetoelectric Heterostructures. Physical Review Applied, 2019, 12 (4): 044001.
[5]   Chu Z, Dong C, Tu C, Liang X, Chen H, Sun C, Yu Z, Dong S, Sun N-X. A low-power and high-sensitivity magnetic field sensor based on converse magnetoelectric effect. Applied Physics Letters, 2019, 115 (16): 162901.
[6]   Chu Z, Gao J, Sun Z, Mao Z, Zhang S, Shen Y, Dong S. Jumping and hysteresis effect in 1–1-typed magnetoelectric resonators. Applied Physics Letters, 2021, 119 (18): 182901.
[7]   Chu Z, Yu Z, PourhosseiniAsl M, Tu C, Dong S. Enhanced low-frequency magnetic field sensitivity in magnetoelectric composite with amplitude modulation method. Applied Physics Letters, 2019, 114 (13): 132901.
[8]   Chu Z, Gao X, Shi W, MohammdJavad P, Dong S. A square-framed ME composite with inherent multiple resonant peaks for broadband magnetoelectric response. Science Bulletin, 2017, 62 (17): 1177-1180.
[9]   Chu Z, Annapureddy V, PourhosseiniAsl M, Palneedi H, Ryu J, Dong S. Dual-stimulus magnetoelectric energy harvesting. MRS Bulletin, 2018, 43 (03): 199-205.
[10]   Chu Z, PourhosseiniAsl M, Dong S. Review of multi-layered magnetoelectric composite materials and devices applications. Journal of Physics D: Applied Physics, 2018, 51 (24): 243001.
[11]  Chu Z, Shi W, Shi H, Chen Q, Wang L, PourhosseiniAsl M J, Xiao C, Xie T, Dong S. A 1D Magnetoelectric Sensor Array for Magnetic Sketching. Advanced Materials Technologies, 2018, 4: 1800484.
[12] X. Gao, J. Wu, Y. Yu, Z. Chu, H. Shi, and S. Dong, "Giant Piezoelectric Coefficients in Relaxor Piezoelectric Ceramic PNN-PZT for Vibration Energy Harvesting," Advanced Functional Materials, vol. 28, no. 30, pp. 1706895, 2018,
[13] J. Wu, X. Gao, Y. Yu, J. Yang, Z. Chu, A. A. Bokov, Z.-G. Ye, and S. Dong, "Quantitative studies of domain evolution in tetragonal BS–PT ceramics in electric poling and thermal depoling processes," Journal of Materials Chemistry C, 2019, doi:10.1039/c9tc00748b
[14]Cheng Tu, Zhao-Qiang Chu et al. "Mechanical-Resonance-Enhanced Thin-Film Magnetoelectric Heterostructures for Magnetometers, Acoustic Antennas, Tunable RF Inductors, and Filters," Materials (MDPI), 2019,
[15] X. Gao, Z. Li, J. Wu, X. Xin, X. Shen, X. Yuan, J. Yang, Z. Chu, S. Dong, A Piezoelectric and Electromagnetic Dual Mechanism Multimodal Linear Actuator for Generating Macro-and Nanomotion, Research 2019, 8232097
[16] C. Dong, Y. He, M. Li, C. Tu, Z. Chu, X. Liang, H. Chen, Y. Wei, M.n Zaeimbashi, X. Wang, H. Lin, Y. Gao, N. Sun, A Portable Very Low Frequency (VLF) Communication System Based on Acoustically Actuated Magnetoelectric Antennas, IEEE Antennas and Wireless Propagation Letters, vol. 19, no. 3, pp. 398-402, March 2020
[17] J. Wu, Z. Hu, X. Gao, Z. Chu, G. Dong, Z. Wang, B. Peng, R. Peng, Z. Zhou, S. Dong, M. Liu, Quantitative domain engineering for realizing d36 piezoelectric coefficient in tetragonal ceramics, Acta Materialia, vol. 188,,pp.146,2020
[18]M. PourhosseiniAsl, X, Gao, S. Kamalisiahroudi, Z. Yu, Z. Chu, et al., Versatile power and energy conversion of magnetoelectric composite materials with high efficiency via electromechanical resonance, Nano Energy, 70, 104506, 2020.

储昭强