张晓青 教授博导

邮箱:x.zhang@tongji.edu.cn

联系方式:物理馆602A室,固话65989832,手机15921919605, 电邮x.zhang@tongji.edu.cn

个人简历
教育经历:博士,凝聚态物理专业,美高梅,2001
工作经历:2005.3至今 美高梅 (教授2010.12-)
教学情况
普通物理(A、B、C);固体物理实验方法
研究方向
电活性柔性电介质材料;柔性轻量化可穿戴传感器;空气耦合超声换能器;微能源采集
奖励荣誉
获奖:
荣誉:2007 上海市青年科技启明星
学术兼职
中国物理学会第11届静电专业委员会委员,中国物理学会第8届电介质物理专业委员会委员,Institute of Electrical and Electronics Engineers Dielectric and Electrical Insulation Society (IEEE DEIS)理事会理事,IEEE 高级会员,IEEE International Symposium on Electrets (ISE)学术委员会的国际顾问,TU Darmstadt-Tongji University Workshop on Functional Materials系列会议的发起人之一,全国驻极体理论及应用研讨会(CNCE)的发起人之一和学术委员会委员、ISE18国际学术会议共同主席、第三(2018)和四届(2023)中德功能陶瓷和聚合物研讨会中方主席、第二届CNCE(2016)大会主席、中国复合材料学会高级会员、European Journal of Electrical Engineering共同编辑、多家国际期刊的评审专家。
主要论著

1.    Z. Ruan, Q. Hu, M. Zhang, W. Liu, G. Zhu, M. Chen, X. Zhang, Ultralight and sensitive ferroelectret films with a human skin-like texture, Applied Physics Letters, 122(24)(2023) 242904. (Featured article, Scilight interview report: https://doi.org/10.1063/10.0019808)

2.    L. Zhou, Q. Hu, J. Shi, Q. Ling, Y. Yuan, T. Zhang, X. Zhang, Thermally stable piezoelectric fiber based on perfluoroalkoxy alkane piezoelectret with a lotus root structure, Applied Physics Letters, 123(12)(2023)123504

3.    X. Ma, Y. Qi, Y. Niu, Q. Zhang, X. Xiang, K. Zhang, P. He, Y. Dai, W. Niu, X. Zhang, Highly sensitive, ultra-reliable flexible piezoelectret sensor for non-contact sitting motion tracking and physiological signal monitoring, Nano Energy, 111(2023)108424

4.    L. Zhou, F. Zhang, X. Ma, X. Zhang, Influence of soft X-ray and ultraviolet irradiations on sensitivity of sensors made with piezoelectret films, Journal of Physics D: Applied Physics, 56(43)(2023) 4353042023

5.    X. Xiang, X. Ma, L. Zhou, G. M. Sessler, H. von Seggern, O. Ben Dali, M. Kupnik, P. He, Y. Dai, X. Zhang, Threadlike Piezoelectric Sensors Based on Ferroelectrets and Their Application in Washable and Breathable Smart Clothing, Advanced Materials Technologies, (2023)2202130

6.   X. Yang, X. Ma, C. Ding, G. M. Sessler, H. von Seggern, M. Kupnik, Y. Dai, P. He, X. Zhang, Resilient Electret Film Based Vibrational Energy Harvesters with a V-shaped Counter Electrode, IET Nanodielectrics, 6(2)(2023) 36

7.   X. Ma, S. Zhukov, H. von Seggern, G. M. Sessler, O. ben Dali, M. Kupnik, Y. Dai, P. He, X. Zhang, Biodegradable and bioabsorbable Bioabsorbable Polylactic Acid ferroelectret Ferroelectrets with prominent Prominent piezoelectricityPiezoelectric Activity, Advanced Electronic Materials, 9(3)(2023) 2201070

8.   X. Ma, C. Song, F. Zhang, Y. Dai, P. He, and X. Zhang, Soft, Multifunctional, Robust Film Sensor Using Ferroelectret with Significant Longitudinal and Transverse Piezoelectric Activity for Biomechanical Monitoring, ACS Appl. Mater. Interfaces 14(45)(2022)51291

9.   X. Ma, X. Chen, F. Zhang, X. Xiang, X. Mu, Y. Dai, P. He, X. Zhang, Self-powered multifunctional body motion detectors based on highly compressible and stretchable ferroelectrets with an air-filled parallel-tunnel structure, Nano Energy, 103(2022) 107729

10. X. Ma, Q. Hu, Y. Dai, P. He, X. Zhang, Disposable sensors based on biodegradable polylactic acid piezoelectret films and their application in wearable electronics, Sensors and Actuators: A. Physical, 346(2022)113834

11.  M. Zhang, Z. Ruan, X. Zhang, Electrical energy harvesting from mechanical motions by employing ferroelectrets featuring large transverse piezoelectric activity, IEEE Trans. Dieletr. Electr. Insul., 29(2022)829-833

12.  X. Ma, X. Yang, H. von Seggern, Y. Dai, P. He, G. M. Sessler, and X. Zhang, Tuneable resonance frequency vibrational energy harvester with electret-embedded variable capacitor, IET Nanodielectrics, 4 (2021)53

13.  X. Ma, X. Yang, X. Zhang, Y. Dai, P. He, Theoretical analysis and experimental validation of frequency-moldable electrostatic energy harvesters biased with a high elastic electret film, Smart Materials and Structures, 30(2021) 065021.

14.  X. Ma, H. von Seggern, G. M. Sessler, S. Zhukov, O. Ben Dali, M. Kupnik, and X. Zhang, High performance fluorinated polyethylene propylene ferroelectrets with an air-filled parallel-tunnel structure, Smart Materials and Structures, 30 (2021) 015002

15.  S. Zhukov, X. Ma, H. von Seggern, G. M. Sessler, O. Ben Dali, M. Kupnik, and X. Zhang, Biodegradable cellular polylactic acid ferroelectrets with strong longitudinal and transverse piezoelectricity, Appl. Phys. Lett., 117(11), (2020)112901.

16.  Y. Xue, X. Zhang, R. Chadda, G. M. Sessler, M. Kupnik, Ferroelectret-based flexible transducers: A strategy for acoustic levitation and manipulation of particles. The Journal of the Acoustical Society of America, 147 (2020) EL421.

17.  L. Chen, J. Cao, G. Li, P. Fang, X. Gong, and X. Zhang, Property Assessment and Application Exploration for Layered Polytetrafluoroethylene Piezoelectrets, IEEE Sensors Journal, 19 (2019)11262.

18.  X. Ma , X. Zhang , G. M. Sessler , L. Chen, X. Yang, Y. Dai , and P. He,Energy harvesters based on fluorinated ethylene propylene unipolar ferroelectrets with negative charges,AIP Advances, 9 (2019)125334.

19.  Y. Xue, J. Zhao, X. Zhang, G. M. Sessler, and M. Kupnik, Acoustic energy harvesting with irradiated cross-linked polypropylene piezoelectret films, Phys. Scr. , 94 (2019) 095002.

20. X. Zhang, P. Pondrom, G. M. Sessler, and X. Ma, Ferroelectrets nanogenerator with large transverse piezoelectric activity in energy harvesting, Nano Energy, 50 (2018)52.

21.  X. Zhang, G. M. Sessler, X. Ma, Y. Xue, and L. Wu, Broad bandwidth vibration energy harvester based on thermally stable wavy fluorinated ethylene propylene electret films with negative charges, J. Micromech. Microeng., 28 (2018) 065012.

22.  Y. Xue, X. Zhang, J. Zheng, T. Liu, and B. Zhu, Comparative study of transducers for air-borne sound based on normal and irradiation cross-linked polypropylene piezoelectret films, IEEE Trans. Dielectr. Electr. Insul., 25(2018)228.

23. Y. Xue and X. Zhang, Air-coupled Ultrasonic Transducers based on Laminated Fluorinated Ethylene Propylene and Porous Polytetrafluoroethylene Ferroelectrets, IEEE Trans. Dielectr. Electr. Insul., 25 (2018) 808.

24.  X. Ma, X. Zhang, and P. Fang, Flexible film-transducers based on polypropylene piezoelectrets: fabrication, properties, and applications in wearable devices, Sensors and Actuators: A. Physical, 256(2017)35.

25. X. Ma and X. Zhang, Low cost electrostatic vibration energy harvesters based on negatively-charged polypropylene cellular films with a folded structure, Smart Mater. Struct. 26(2017)085001.

26. X. Zhang, G. M. Sessler, Y. Xue, and X. Ma, Audio and Ultrasonic responses of laminated fluoroethylenepolypropylene and porous polytetrafluoroethylene films with different charge distributions, J. Phys. D: Appl. Phys., 49(2016)205502.

27.   X. Zhang, X. Zhang, G. M. Sessler, X. Gong, Quasi-static and dynamic piezoelectric responses of layered polytetrafluoroethylene ferroelectrets, J. Phys. D: Appl. Phys., 47 (2014) 015501 .

28.  X. Zhang, X-W. Zhang, Q. You, G. M. Sessler, Low cost, large area, stretchable piezoelectric films based on irradiation cross-linked polypropylene, Macromol. Mater. Eng. 299(2014) 290–295.

29.  X. Zhang, G. M. Sessler, Y. Wang, Fluoroethylenepropylene ferroelectret films with cross-tunnel structure for piezoelectric transducers and micro energy harvesters, J. Appl. Phys., 116(2014)074109.

30.  X. Zhang, J. Hillenbrand, G. M. Sessler, S. Haberzettl, and K. Lou, Fluoroethylenepropylene ferroelectret films with patterned microstructure and high, thermally stable piezoelectricity, Appl. Phys. A, .107 (2012)621.

31.  Z. Sun, X. Zhang, Z. Xia, X. Qiu, W. Wirges, R. Gerhard, Changchun. Zeng, Chuck Zhang, and B. Wang, Polarization and piezoelectricity of polymer films with artificial void structure, Appl. Phys. A, 105 (2011)197.

32.  X. Zhang, G. Cao, Z. Sun, and Z. Xia, Fabrication of fluoropolymer piezoelectrets by using rigid template: structure and thermal stability, J. Appl. Phys., 108(2010)064113.

33.  X. Zhang, J. Hillenbrand, and G. M. Sessler, Ferroelectrets with improved thermal stability made from fused fluorocarbon layers, J. Appl. Phys., 101(2007)054114.

34.  X. Zhang, J. Hillenbrand and G. M. Sessler, Improvement of piezoelectric activity of cellular polymers using a double-expansion process, J. Phys. D: Appl. Phys., 37 (2004)2146.

35.  X. Zhang and G. M. Sessler, Charge dynamics in silicon nitride / silicon oxide double layers, Appl. Phys. Lett., 78 (2001) 2757.




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