Xiaoqing Gao, Ph.D.


高小青研究员,2018年1月毕业于中国科学院大学,培养单位为国家纳米科学中心,导师为唐智勇研究员。2018-2020年,以副研究员的身份在深圳大学物理与光电工程学院从事科研工作,合作老师张秀文教授。2020年6月至今,加入周云龙研究员的团队,以岗位研究员的身份在中国科学院大学温州研究院从事科研工作。主要研究方向:新型手性纳米材料的构建,及相关光学性质研究、生物医学诊疗及检测。目前,以第一作者和通讯作者发表SCI论文11篇,其中中科院分区一区8篇,IF>10的文章6篇(分别发表在J. Am. Chem. Soc.,Adv. Mater.,Nano Lett,Nature Nanotech.等国际期刊上)。先后承担研究院重大项目、国家自然科学基金青年项目、中科院纳米系统与多级次制造重点实验室对外开放项目等。

Xiaoqing Gao got her Ph.D. in materials from University of Chinese Academy of Sciences with the training unit of National Center for Nanoscience and Technology and the supervisor of Zhiyong Tang Researcher. Then, she joined Xiuwen Zhang professor’s group as an assistant researcher in Shenzhen University during May 2018 and May 2020. From June 2020 to this day, she jointed Yunlong Zhou Researcher’s group in Wenzhou Institute, University of Chinese Academy of Sciences. Her interests are the construction of new chiral nanomaterials with specially physical properties, and exploring their applications on the photo-biomedical detection. Until recently, she published 11 academic papers in international authoritative journals as the first or corresponding authors, including 1 《Nature Nanotechnology》and 2 《Journal of the American Chemical Society》. She has presided over a number of scientific research projects, including National Natural Science Foundation of China, the major project of Wenzhou Institute, the CAS Key Laboratory of Nanosystem and Hierarchical Fabrication.


  1. 09.2013 – 01.2018   PhD   National Center for Nanoscience and Technology
  2. 09.2010 – 07.2013   M.Sc.   Xinjiang University
  3. 09.2003 – 07.2007   B.Sc.   Wuhan University of Science and Technology

Teaching Experience

Medical chemistry

Academic Experience

  1. 06.2020 – Present   Researcher   Wenzhou Institute, University of Chinese Academy of Sciences
  2. 05.2018 – 05.2020   Associate Researcher   Shenzhen University

Research Interest

Xiaoqing Gao has been working on the construction of new nanomaterials with special optical activity, and then exploring their applications on the photo-biomedical detection.


  1. Zhuang, T-T#; Li, Y#; Gao, X.#; Wei, M.; Arquer, F.; Yu, S-H;* Tang, Z;* Sargent E. H,* Regioselective magnetization in semiconducting nanorods. Nature Nanotechnology 2020, 15 (3), 192-197.
  2. Gao, X.; Han, B.; Yang, X.; Tang, Z., Perspective of Chiral Colloidal Semiconductor Nanocrystals: Opportunity and Challenge. Journal of the American Chemical Society 2019, 141 (35), 13700-13707.
  3. Gao, X. #; Zhang, X. #; Yang, X.; Zhao, L.; Han, B.; Alanagh, H. R.; Tang, Z., Detecting electronic structure evolution of semiconductor nanocrystals by magnetic circular dichroism spectroscopy. Nanoscale 2019, 11 (41), 19380-19386.
  4. Zhang, Y.; Zhang, X.*; Gao, X.*, Detecting Semiconductor Nanoplatelets with Distinctive Crystal Structures and Thickness by Magnetic Circular Dichroism. The Journal of Physical Chemistry C 2019, 123 (48), 29331-29336.
  5. Gao, X.; Zhang, X.; Zhao, L.; Huang, P.; Han, B.; Lv, J.; Qiu, X.; Wei, S. H.; Tang, Z., Distinct Excitonic Circular Dichroism between Wurtzite and Zincblende CdSe Nanoplatelets. Nano letters 2018, 18 (11), 6665-6671.
  6. Han, B.#; Gao, X.#; Lv, J.; Tang, Z., Magnetic Circular Dichroism in Nanomaterials: New Opportunity in Understanding and Modulation of Excitonic and Plasmonic Resonances. Advanced Materials 2018, 0 (0), e1801491.
  7. Gao, X.; Zhang, X.; Deng, K.; Han, B.; Zhao, L.; Wu, M.; Shi, L.; Lv, J.; Tang, Z., Excitonic Circular Dichroism of Chiral Quantum Rods. Journal of the American Chemical Society 2017, 139 (25), 8734-8739.
  8. Gao, X.; Xiao, F.; Yang, C.; Wang, J.; Su, X., Hydrothermal fabrication of W18O49 nanowire networks with superior performance for water treatment. Journal of Materials Chemistry A 2013, 1 (19), 5831-5834.
  9. Gao, X.; Su, X.; Yang, C.; Xiao, F.; Wang, J.; Cao, X.; Wang, S.; Zhang, L., Hydrothermal synthesis of WO3 nanoplates as highly sensitive cyclohexene sensor and high-efficiency MB photocatalyst. Sensors and Actuators B: Chemical 2013, 181, 537-543.
  10. Gao, X.; Zhao, H.; Wang, J.; Su, X.; Xiao, F., Morphological evolution of flower-like ZnO microstructures and their gas sensing properties. Ceramics International 2013, 39 (8), 8629-8632.
  11. Gao, X.; Yang, C.; Xiao, F.; Zhu, Y.; Wang, J.; Su, X., WO30.33H2O nanoplates: Hydrothermal synthesis, photocatalytic and gas-sensing properties. Material Letters 2012, 84, 151-153.
  12. Rezvani Alanagh, H.; Rostami, I.; Taleb, M.; Gao, X.; Zhang, Y.; Khattak, A. M.; He, X.; Li, L.; Tang, Z., Covalent organic framework membrane for size selective release of small molecules and peptide in vitro. Journal of Materials Chemistry B 2020, 8 (35), 7899-7903.
  13. Luo, Y.; Shan, H.; Gao, X.; Qi, P.; Li, Y.; Li, B.; Rong, X.; Shen, B.; Zhang, H.; Lin, F.; Tang, Z.; Fang, Z., Photoluminescence enhancement of MoS2/CdSe quantum rod heterostructures induced by energy transfer and exciton–exciton annihilation suppression. Nanoscale Horizons 2020, 5 (6), 971-977.
  14. Zhang, S.; Shi, W.; Siegler, T. D.; Gao, X.; Ge, F.; Korgel, B. A.; He, Y.; Li, S.; Wang, X., An All-Inorganic Colloidal Nanocrystal Flexible Polarizer. Angewandte Chemie 2019, 58 (26), 8730-8735.
  15. Lv, J.; Hou, K.; Ding, D.; Wang, D.; Han, B.; Gao, X.; Zhao, M.; Shi, L.; Guo, J.; Zheng, Y.; Zhang, X.; Lu, C.; Huang, L.; Huang, W.; Tang, Z., Gold Nanowire Chiral Ultrathin Films with Ultrastrong and Broadband Optical Activity. Angewandte Chemie 2017, 129 (18), 5137-5142.
  16. Han, B.; Gao, X.; Shi, L.; Zheng, Y.; Hou, K.; Lv, J.; Guo, J.; Zhang, W.; Tang, Z., Geometry-Modulated Magnetoplasmonic Optical Activity of Au Nanorod-Based Nanostructures. Nano Letters 2017, 17 (10), 6083-6089.
  17. Lu, N.; Gao, X.; Yang, C.; Xiao, F.; Wang, J.; Su, X., Enhanced formic acid gas-sensing property of WO3 nanorod bundles via hydrothermal method. Journal of Materials Chemistry B 2016, 223, 743-749.
  18. Han, B.; Shi, L.; Gao, X.; Guo, J.; Hou, K.; Zheng, Y.; Tang, Z., Ultra-stable silica-coated chiral Au-nanorod assemblies: Core–shell nanostructures with enhanced chiroptical properties. Nano Research. 2016, 9 (2), 451-457.
  19. Zhu, Y.; Su, X.; Yang, C.; Gao, X.; Xiao, F.; Wang, J., Synthesis of TiO2-WO3 nanocomposites as highly sensitive benzene sensors and high efficiency adsorbents. Journal of Materials Chemistry 2012, 22 (28), 13914-13917.


  1. 2020-2023 The Major Project of Wenzhou Institute, University of Chinese Academy of Sciences, WIUCASQD2020011
  2. 2019-2021 National Natural Science Foundation of China, 21805188
  3. 2018 CAS Key Laboratory of Nanosystem and Hierarchical Fabrication, NHF18JJ102


  1. Best Poster Award in Chiral China, 2016
  2. National Scholarship, 2012
  3. Guanghua scholarship, 2012


  1. Chiral China, 2016, (poster)
  2. The 12th Sino-US Nano Symposium, 2017 (Conferance staff)
  3. The 13th Cross-Strait Workshop on Nanoscience and Nanotechnology, 2017 (Conferance staff)
  4. China Nano 2013; China Nano 2015; China Nano 2019 (oral)