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概况
徐晓敏,清华大学深圳国际研究生院副教授、博士生导师,材料研究院生物医用材料与器件研究中心副主任。2011年本科毕业于中国科学技术大学高分子科学与工程系,2015年于香港中文大学获化学博士学位。2016至2019年先后在日本理化学研究所(RIKEN)新兴物质科学中心和德国柏林洪堡大学物理系任职博士后(获“洪堡学者”荣誉)。2019年9月全职加入清华-伯克利深圳学院(TBSI)低维材料与器件实验室和深圳盖姆石墨烯中心。从事柔性材料和生物电子器件研究工作,成果发表在PNAS, Nat. Energy, Chem, Adv. Mater., J. Am. Chem. Soc.等知名期刊,被引逾2300次,H因子22;担任Appl. Phys. Rev.青年编委,Nat. Commun., Adv. Electron. Mater., J. Mater. Chem. C, Mater. Today Phys.等期刊审稿人。曾获中国科学技术大学优秀毕业生、香港政府奖学金(HKPFS)、德国“洪堡学者”、深圳市海外高层次人才等荣誉。主持科技部重点研发计划(政府间国际科技创新合作项目)、国家自然科学基金面上及青年项目、广东省自然科学基金、深圳市优青、深圳市高等院校稳定支持计划重点项目等;广东省“珠江人才计划”引进创新创业团队及深圳市海外高层次人才创新创业团队(孔雀团队)核心骨干。
教育经历
2011年8月-2015年8月,香港中文大学,化学,博士
2007年7月-2011年7月,中国科学技术大学,化学(高分子科学与工程),学士
工作经历
2022年6月至今 副教授,清华大学深圳国际研究生院,清华大学
2019年9月-2022年6月 助理教授,清华-伯克利深圳学院,清华大学深圳国际研究生院,清华大学
2017年8月-2019年9月,柏林洪堡大学,博士后(洪堡学者)
2016年7月-2017年7月,日本理化学研究所,博士后
2015年12月-2016年6月,香港中文大学,博士后
2015年9月-2015年12月,中国科学院化学研究所,(高级)访问学者
学术兼职
Applied Physics Reviews青年编委
中国微米纳米技术学会(CSMNT)高级会员
中国材料研究学会(C-MRS)高级会员
材料研究院生物医用材料与器件研究中心副主任
社会兼职
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教学课程
Organic Electronics: Materials and Emerging Technologies
有机电子:材料与新兴技术 (86000943), TBSI
Flexible Materials and Electronics
柔性电子:从材料到器件 (86001013), TBSI
研究生指导
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研究领域
从事柔性材料和生物电子器件领域的研究工作,包括有机功能分子、低维材料的新型结构构筑,皮肤集成电子、神经界面等生物电子器件的构建与应用。研究成果发表在PNAS, Nat. Energy, Chem, Adv. Mater., J. Am. Chem. Soc.等知名期刊,被引逾2300次,H因子22,担任Appl. Phys. Rev.青年编委。
主要项目
1. 科技部重点研发计划-政府间国际科技创新合作专项,主持。
2. 国家自然科学基金委员会,面上项目,主持。
3. 国家自然科学基金委员会,青年科学基金,主持。
4. 广东省自然科学基金,面上项目,主持。
5. 深圳市科技创新委员会,深圳市优秀科技创新人才培养项目,主持。
6. 深圳市科技创新委员会,深圳市高等院校稳定支持计划重点项目,主持。
7. 清华大学深圳国际研究生院海外科研合作基金,主持。
8. 清华大学深圳国际研究生院启动经费,主持。
9. 科技部重点研发计划-纳米前沿专项,骨干。
10.广东省科学技术厅“珠江人才计划”引进创新创业团队项目,骨干。
11.深圳市科技创新委员会,深圳市高层次人才团队项目,骨干。
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代表性论文
[1] S. Cheng, Z. Lou, L. Zhang, H. Guo, Z. Wang, C. Guo, K. Fukuda, S. Ma, G. Wang, T. Someya, H.-M. Cheng, X. Xu. Ultrathin hydrogel films toward breathable skin-integrated electronics. Adv. Mater.2023, 35, 2206793.
[2] B. Wei, Z. Wang, H. Guo, F. Xie, S. Cheng, Z. Lou, C. Zhou, H. Ji, M. Zhang, X. Wang, X. Jiao, S. Ma, H.-M. Cheng, X. Xu. Ultraflexible tattoo electrodes for epidermal and in vivo electrophysiological recording. Cell Reports Physical Science. 2023, 4, 101335.
[3] W. Xu, J. Wang, S. Cheng, X. Xu. Flexible Organic Transistors for Neural Activity Recording. App. Phys. Rev. 2022, 9, 031308. Featured article.
[4] H. Zhao, M. Shu, Z. Ai, Z. Lou, K.-W. Sou, C. Lu, Y. Jin, Z. Wang, J. Wang, Y. Cao, Q. Li, X. Xu, W. Ding. A Highly Sensitive Triboelectric Vibration Sensor for Machinery Condition Monitoring. Adv. Energy Mater. 2022, 12, 2201132.
[5] H. Guo, S. Saifi, K. Fukuda, H.-M. Cheng, Z. Lou, X. Xu. Flexible organic photodetectors and their use in wearable systems. Digit. Signal Process. 2022, 125, 103145.
[6] X. Xu, Z. Lou, S. Cheng, P. C. Y. Chow, N. Koch, H.-M. Cheng. Van der Waals organic /inorganic heterostructures in the two-dimensional limit. Chem 2021, 7, 2989–3026.
[7] J. Ma, P. Amsalem,T. Schultz, D. Shin, X. Xu,N. Koch. Energy level alignment at the C60/monolayer-WS2 interface on insulating and conductive substrates. Adv. Electron. Mater. 2021, 7, 2100425.
[8] S. Park, N. Mutz, S. A. Kovalenko, T. Schultz, D. Shin, A. Aljarb, L.-J. Li, V. Tung, P. Amsalem, E. J. W. List-Kratochvil, J. Stähler, X. Xu, S. Blumstengel, N. Koch. Type-I energy level alignment at the PTCDA - monolayer MoS2 interface promotes resonance energy transfer and luminescence enhancement. Adv. Sci. 2021, 8, 2100215.
[9] X. Xu, T. Schultz, Z. Qin, N. Severin, B. Haas, S. Shen, J. N. Kirchhof, A. Opitz, C. T. Koch, K. Bolotin, J. P Rabe, G. Eda, N. Koch. Microstructure and elastic constants of transition metal dichalcogenide monolayers from friction and shear force microscopy. Adv. Mater.2018, 30, 1803748.
[10] X. Xu, K. Fukuda, A. Karki, S. Park, H. Kimura, H. Jinno, N. Watanabe, S. Yamamoto, S. Shimomura, D. Kitazawa, T. Yokota, S. Umezu, T.-Q. Nguyen, T. Someya. Thermally stable, highly efficient, ultraflexible organic photovoltaics. Proc. Natl. Acad. Sci. U.S.A. (PNAS) 2018,115, 4589–4594.
[11] Z. Jiang, K. Fukuda, X. Xu, S. Park, D. Inoue, H. Jin, M. Saito, I. Osaka, K. Takimiya, T. Someya. Reverse-offset printed Ag mesh for stretchable transparent electrodes with strong mechanical robustness. Adv. Mater. 2018, 30, 1707526.
[12] H. Jinno, K. Fukuda, X. Xu, S. Park, Y. Suzuki, M. Koizumi, T. Yokota, I. Osaka, K. Takimiya, T. Someya. Stretchable and waterproof elastomer-coated organic photovoltaics for washable electronic textile applications. Nature Energy 2017, 2, 780–785.
[13] D. Ji, X. Xu, L. Jiang, S. Amirjalayer, L. Jiang, Y. Zhen, Y. Zou, Y. Yao, H. Dong, J. Yu, H. Fuchs, W. Hu. Surface polarity and self-structured nanogrooves collaborative oriented molecular packing for high crystallinity towards efficient charge transport. J. Am. Chem. Soc. 2017, 139, 2734–2740.
[14] X. Xu,Y. Yao, B. Shan, X. Gu, D. Liu, J. Liu, J. Xu, N. Zhao, W. Hu, Q. Miao. Electron Mobility exceeding 10 cm2V-1s-1 and band-like charge transport in solution-processed n-channel organic thin-film transistors. Adv. Mater. 2016, 28, 5276–5283.
[15] X. Gu, X. Xu,H.Li, Z. Liu, Q. Miao. Synthesis, molecular packing, and thin film transistors ofdibenzo[a,m]rubicenes. J. Am. Chem. Soc. 2015, 137, 16203–16208.
[16] X. Xu,T. Xiao, X. Gu, X. Yang, S. V. Kershaw, N. Zhao, Q. Miao. Solution-processed ambipolar organic thin film transistors by blending p- and n-type semiconductors: solid solution versus microphase separation. ACS Appl. Mater. Interfaces 2015, 7, 28019–28026.
[17] K. Y. Cheung, X. Xu,Q.Miao. Aromatic saddles containing two heptagons. J. Am. Chem. Soc. 2015, 137, 3910–3914.
[18] X. Xu,B.Shan, S. Kalytchuk, M. Xie, S. Yang, D. Liu, S. V. Kershaw, Q. Miao. Synthesis, Solution-processed thin film transistors and solid solutions of silylethynylated diazatetracenes. Chem. Commun.2014, 50, 12828–12831 (Inside front cover ofChem. Commun. 2014, volume 50, issue 85).
For the complete publication list, please refer to:
ORCID: 0000-0002-9903-3798
Google scholar: PaTbsjMAAAAJ&hl=en
代表性著作
主要专利成果
1. 一种基于有机光电探测器的多体征检测系统及方法(202310353314.9)
2. 基于有机光电探测器的黄疸检测贴片、系统及制备方法(202310317503.0)
3. 一种高导电水凝胶的制备方法与应用(202211733930.9)
4. 一种高导电高生物相容性的水凝胶及其制备方法与应用(202211731290.8)
5. 一种超柔性生物电-光电信号贴片传感器及其制备方法与应用(202210507406.3)
6. PEDOT:PSS/EG/LiTFSI导电墨水与超柔性电极及电生理信号的监测方法(202210227885.3)
7. 一种可剥离式超薄水凝胶、制备方法与应用(202110980155.6)
8. Photovoltaic power device, Japanese Patent, Application No. 2017-181840.
9. Electronic device and method of manufacturing, Japanese Patent, Application No. 2017-179452.
其他成果
1. Invited talk: Flexible Materials for Skin-Integrated Electronics and Implantable Neural Interfaces. The Brain Cognition and Brain Disease Institute of Shenzhen Institute of Advanced Technology, Chinese Academy of Sciences, Nov. 09, 2022.
2. Invited talk: Ultraflexible Organic Optoelectronics and Skin-Integrated Systems. 2021 Smart Wearable Technology Innovation Forum for Young Scientists, Nov. 06, 2022.
3. Invited talk: Ultraflexible (Opto)electronics and the Applications in Wearable Systems. Ajou University, Korea (online symposium), Dec. 03, 2021.
4. Invited talk: Ultraflexible Organic Optoelectronics and the Applications in Wearable Systems. The 10th Celebration ICAFPM 2021, Shanghai, China, Oct. 17-20, 2021.
5. Invited talk: Ultraflexible (Opto)electronics: From Microstructure Engineering to Wearable Applications. The 7th International Symposium of Flexible & Stretchable Electronics 2021 (ISFSE 2021), Wuhan, China, June 29-30, 2021.
6. Invited talk: Ultraflexible (Opto)electronics: From Microstructure Engineering to Wearable Applications at Southern University of Science and Technology (SUSTech), Shenzhen, China, May 21, 2021.
7. Invited talk: Solution-Processed Organic Electronics: from Microstructure Engineering to Ultraflexible Devices. The 3rd Symposium on the Development of Organic Optoelectronic Materials and Devices, Shanghai, China, May 15-16, 2021.
8. Invited talk: From Microstructure Engineering of Semiconductors to Ultraflexible (Opto)electronics. Hybrid Inorganic/Organic Systems for Opto-Electronics (HIOS Symposium 2020), Berlin (online), Germany,September 10-11, 2020.
9. Invited talk:Visualizing microstructure of the low-dimensional materials and controlling molecular assembly on the heterointerface.LDMO 2019 (The 2nd International Symposium on Low Dimensional Materials for Optoelectronics) Shenzhen, China, December 12-15, 2019.
10. Invited talk: Solution-processed organic electronics and beyond: from molecular assembly to the ultraflexible devices. IOP CAS (SLAB, Institute of Physics Chinese Academy of Sciences) – IRIS Humboldt University of Berlin Workshop, Songshan Lake, Dongguan, China, October 8-10, 2019.
Conference organizing activities
1. MRS (Materials Research Society) 2022 Spring Meeting, Symposium co-organizer, Honolulu, Hawaii, May 09-13 (onsite) & May 23-25 (virtual), 2022.
2. 2021, 2022, & 2023 International Forum on Graphene in Shenzhen, Session Chair, Shenzhen, China
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荣誉奖项
· 2022 深圳市优青
· 2019 深圳市海外高层次人才
· 2017 洪堡学者(德国)
· 2011 香港政府奖学金
· 2011 中国科学技术大学优秀毕业生