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Longzhen Qiu


Professor

Academy of Opto-Electronic Technology

Tel: 
Mail: lzhqiu@hfut.edu.cn


  • 2012.5-present     Professor, Academy of Opt-electronic Technology, Hefei University of Technology, PR China

  • 2009.6-2012.5   Associate Professor, Academy of Opt-electronic Technology, Hefei University of Technology, PR China

  • 2008.10-2009.5   Postdoctoral Fellow, Department of Mechanical & Aerospace Engineering, University of California Los Angeles, USA

  • 2006.9-2008.8   Postdoctoral Fellow, Department of Chemical Engineering, Pohang University of Science and Technology, South Korea

  • 2001.9-2006.7   Ph. D, Polymer Chemistry and Physics, University of Science and Technology of China

  • 1997.9-2001.7    B. S., Chemistry, University of Science and Technology of China


Teaching

Principles and Instruments of Medical Imaging


Research

I am engaged in research on optoelectronic materials and devices, mainly including 1) flexible/elastic electronics; 2) Artificial synapses; 3) Printing electronics; 4) Organic sensors, etc.


Selected Papers/Patentsand Honors

[1]L. Jiang, L. Yang, X. Wu, X. Wang, L. Zheng, W. Xu; L. Qiu. Helical Nanofiber Photoelectric Synaptic Devices for an Artificial Vision Nervous System. Nano Lett. 2023 23, 8146-8154.

[2]Y. C. Xue, C. Zhang, T. J. Lv, L. Z. Qiu; F. Wang. Amplification of Dissymmetry for Circularly Polarized Photodetection by Cooperative Supramolecular Polymerization. Angew. Chem. Int. Ed. 2023, e202300972.

[3]C. Zhang, C. Y. Xu, C. F. Chen, J. J. Cheng, H. L. Zhang, F. Ni, X. H. Wang, G. Zou; L. Z. Qiu. Optically Programmable Circularly Polarized Photodetector. Acs Nano 2022 16, 12452-12461.

[4]L. Z. Qiu, S. Y. Wei, H. S. Xu, Z. X. Zhang, Z. Y. Guo, X. G. Chen, S. Y. Liu, D. Wu; L. B. Luo. Ultrathin Polymer Nanofibrils for Solar-Blind Deep Ultraviolet Light Photodetectors Application. Nano Lett. 2020 20, 644-651.

[5]H. Han, F. Ge, M. X. Ma, H. Y. Yu, H. H. Wei, X. Zhao, H. B. Yao, J. D. Gong, L. Z. Qiu; W. T. Xu. Mixed receptors of AMPA and NMDA emulated using a 'Polka Dot'-structured two-dimensional conjugated polymer-based artificial synapse. Nanoscale Horizons 2020 5, 1324-1331.