职位: 特聘教授

地址：上海市梅陇路130号华东理工大学机械与动力工程学院414（实验17楼）

研究生招生专业：080202机械电子工程 

个人简介:

1996年至2006年就读于同济大学，获学士、硕士和博士学位。2006年至2020年在德国波茨坦大学和开姆尼茨工业大学从事教学与科研工作。2017年7月于波茨坦大学获德国大学特许任教资格（Habilitation）。曾获德国勃兰登堡州聚合物科学特别奖。入选上海高校特聘教授（东方学者）和上海市海外高层次人才计划。现为国际驻极体会议（International Symposium on Electrets, ISE）科学顾问委员会委员，IET Nanodielectrics副主编，IEEE和DEIS高级会员(Senior Member)，中国复合材料学会介电高分子复合材料与应用专委会委员。已发表学术论文百余篇，合著学术专著2部，其中SCI收录65篇，另有EI收入35篇。Google Scholar显示论文被引用2200余次，h-index 23。Web of Science检索论文被他引1000余次。担任Nat. Comm., Small, Appl. Phys. Lett., J. Appl. Phys., Polymer等20余种国际知名学术期刊审稿人。

研究方向

传感材料及压电换能器；传感器及驱动器技术；功能电介质与驻极体；弹性体材料；打印电子器件

承担科研项目

1. 上海市海外高层次人才引进计划项目, 2020，主持, 在研

2. 上海高校特聘教授（东方学者）岗位计划, 2019，主持, 在研

3. 德国联邦教研部（BMBF）项目，T-Paper, 2017.5-2020.04，参与

4. 德国学术交流中心（DAAD）国际合作交流项目，57140967，Optimized minimally invasive polymer-based sensors for high-voltage equipment， 2015.01-2016.12，参与

5. 德国学术交流中心（DAAD）国际合作交流项目，56165517，Preparation of flexi ble ceramic-polymer composites and investigation of their relevant dielectric, piezo- and pyroelectric properties， 2013.01-2014.12，参与

6. 德国学术交流中心（DAAD）国际合作交流项目，Preparation, charging and comp rehensive characterization of novel ferroelectret structures from perforated and continuous dielectric layers，2009.01-2012.12，参与

7. 德国科学基金会(DFG)研究人员项目(Research Fellow), QI65/1-1, Inception and development of micro-discharge in the voids of ferroelectrets during charging， 2007.03-2009.02，主持

8. 德国科学基金会(DFG)和奥地利科学基金会(FWF)合作项目，5447338, Development, characterization and application of cellular fluoropolymer films with ferroelectret properties， 2005.01-2007.12，参与

获奖成果

2009.05，Leibniz-Kolleg Potsdam 聚合物科学特别奖（德国）

代表性著作

期刊论文（*为通讯作者）

1. Xunlin Qiu*, Aravindan Joseph Benjamin, Thulasinath Raman Venkatesan, Georg C. Schmidt, Ricardo Alonso Quintana Soler and Pramul Muraleedhara Panicker, Reimund Gerhard, and Arved C. Hübler, Dielectric and Electroacoustic Assessment of Screen-printed Piezoelectric Polymer Layers as Flexible Transducers: Influence of the Electrode Material, IEEE Transactions on Dielectrics and Electrical Insulation, Vol. 27, No. 5; pp. 1683-1690 (2020).

2. Changsheng Li, Gangjin Chen*, Xunlin Qiu*, Meng Gao, and Reimund Gerhard, “Modified polytetrafluoroethylene: towards easy-to-process space-charge electret materials,” Applied Physics Express, 13, 011003 (2020).

3. Xunlin Qiu*, Georg C. Schmidt, Pramul Muraleedhara Panicker, Ricardo Alonso Quintana Soler, Aravindan Joseph Benjamin, Arved C. Hübler, “Fully Printed Piezoelectric Polymer Loudspeakers with Enhanced Acoustic Performance”, Advanced Engineering Materials, 1900537 (2019).

4. Xunlin Qiu*, Frederick Groth, Werner Wirges, and Reimund Gerhard, “Cellular polypropylene foams as DC voltage insulation and as piezoelectrets – A comparison”, IEEE Transactions on Dielectrics and Electrical Insulation, 25(3), pp. 829-834 (2018).

5. Xunlin Qiu*, “Significant enhancement of the charging efficiency in the cavities of ferroelectrets through gas exchange during charging”, Applied Physics Letters, 109, 222903 (2016).

6. Xunlin Qiu*, Werner Wirges, and Reimund Gerhard, “Thermal poling of ferroelectrets: How does the gas temperature influence dielectric barrier discharges in cavities?”, Applied Physics Letters, 108, 252901 (2016).

7. Qiu*, W. Wirges, and R. Gerhard, “Polarization and Hysteresis in Tubular-Channel Fluoroethylenepropylene-Copolymer Ferroelectrets”, Ferroelectrics, Volume 472, Issue: 1, pp. 100-109 (2014).

8. Martynas Sborikas, Xunlin Qiu*, Werner Wirges, Reimund Gerhard, Werner Jeninger, and Deliani Lovera, “Screen printing for producing ferroelectret systems with polymer-electret films and well-defined cavities”, Applied Physics A: Materials Science & Processing, 114, 515-520 (2014).

9. Xunlin Qiu*, Lars Holländer, Werner Wirges, Reimund Gerhard, and Heitor Cury Basso, “Direct hysteresis measurements on ferroelectret films by means of a modified Sawyer-Tawer circuit”, Journal Applied Physics, 113, 224106 (2013).

10. Heitor Cury Basso*, Xunlin Qiu*, Werner Wirges, and Reimund Gerhard, “Temporal evolution of the re-breakdown voltage in small gaps from nanoseconds to milliseconds”, Appl. Phys. Lett., 102, 012904 (2013).

11. Werner Wirges, Sebastian Raabe und Xunlin Qiu*, “Dielectric elastomer and ferroelectret films combined in a single device: how do they reinforce each other?”, Applied Physics A: Materials Science & Processing, 107(3), 583-588 (2012). (邀请论文)

12. Xunlin Qiu*, Werner Wirges, and Reimund Gerhard, “Beneficial and detrimental fatigue effects of dielectric barrier discharges on the piezoelectricity of polypropylene ferroelectrets”, Journal of Applied Physics, 110, 024108 (2011).

13. Xunlin Qiu*, Reimund Gerhard and Axel Mellinger, “Turning Polymer Foams or Polymer-Film Systems into Ferroelectrets: Dielectric Barrier Discharges in the Voids”, IEEE Transactions on Dielectrics and Electrical Insulation, 18(1), 34-42 (2011).

14. Xunlin Qiu*, Lars Holländer, Rosaura Flores Suárez, Werner Wirges, and Reimund Gerhard, “Polarization from Dielectric-Barrier Discharges (DBDs) in ferroelectrets: Mapping of the electric-field profiles by means of Thermal-Pulse-Tomography (TPT)”, Applied Physics Letters, 97, 072905 (2010).

15. Xunlin Qiu*, “Patterned piezo-, pyro-, and ferroelectricity of poled polymer electrets”, Journal of applied physics, 108, 011101 (2010). (特邀综述，封面文章)

16. R. A. P. Altafim, X. Qiu*, W. Wirges, R. Gerhard*, R. A. C. Altafim, H. C. Basso, W. Jenninger, and J. Wagner, “Template-based fluoroethylenepropylene piezoelectrets with tubularchannels for transducer applications”, Journal of Applied Physics, 106, 014106 (2009).

17. Xunlin Qiu* and Reimund Gerhard, Effective polarization fatigue from repeated dielectric barrier discharges in cellular polypropylene ferroelectrets, Applied Physics Letters, 93, 152902 (2008).

18. Xunlin Qiu*, Axel Mellinger, and Reimund Gerhard, “Influence of gas pressure in the voids during charging on the piezoelectricity of ferroelectrets”, Applied Physics Letters, 92, 052901 (2008)

19. Xunlin Qiu*, Axel Mellinger, Werner Wirges, and Reimund Gerhard, Spectroscopic study of dielectric barrier discharges in cellular polypropylene ferroelectrets, Applied Physics Letters, 91, 132905, (2007).

20. Xunlin Qiu*, Axel Mellinger, Michael Wegener, Werner Wirges, and Reimund Gerhard, Barrier discharges in cellular polypropylene ferroelectrets: How do they influence the electromechanical properties? Journal of Applied Physics, 101, 104112 (2007).

专著（章节）

1. Xunlin Qiu, Dmitry Rychkov, and Werner Wirges, “Properties and Applications of Ferroelectrets”, in “The Nano-Micro Interface: Bridging the Mirco and Nano Worlds”, Second Edition Volume 1  (Edited by Marcel Van de Voorde, Matthias Werner, and Hans-Jörg Fecht) (WILEY-VCH, Weinheim, 2015), pp. 271-285; ISBN: 978-3-527-33633-3 (2015).

2. Xunlin Qiu, “Polymer Electrets and Ferroelectrets as EAPs: Materials”, in “Electromechanically Active Polymers, Polymers and Polymeric Composites: A Reference Series”, Editor: Federico Carpi, Springer International Publishing Switzerland 2016, pp. 1-29, DOI: 10.1007/978-3-319-31767-0_25-1; ISBN: 978-3-319-31767-0 (Online)