2015.07-2018.06：北京航空航天大学物理学院，博士后

2018.07-至今：   北京工业大学材料与制造学部，教授

1.  纳米通道离子导体膜

2.  电化学能源器件

3.  电致变色材料与器件

1. 张倩倩，刘兆阅，翟锦，一种两侧浸润性非对称的纳米通道的制备方法, 2015. 3. 25, 中国, ZL201210380545.0.
2. 张倩倩，刘齐荣，刘兆阅，一种全无机纳米流体二极管的制备方法, 2020. 11. 24, 中国, ZL201711324943.X.
3. 张倩倩，赵晴，刘晶冰，汪浩，一种具有离子整流效应的大面积柔性薄膜的制备方法, 2021. 5. 14, 中国, ZL201910547462.8.
4. 刘晶冰，武邵蕊，汪浩，张倩倩，严辉，电致变色智能窗变色层的NiO电致变色薄膜的简单大面积制备方法, 2018. 9. 5, 中国, 201811028965.6.
5. 汪浩，朱昱江，周开岭，张倩倩，刘晶冰，一种多孔电致变色玻璃薄膜的制备工艺, 2018. 9. 19, 中国, 201811098823.7.

北京市科技新星（2020）

北京市科协青年人才托举工程获得者（2020）

北京工业大学“高端人才队伍建设计划”优秀人才（2018）

北京航空航天大学“卓越百人博士后”（2015）

中国感光学会青年理事

北京真空学会理事

《北京工业大学学报》青年编委

Journal of Modern Polymer Chemistry and Materials期刊编委

1. Z. Hao, Y. Wu, Q. Zhao, J. Tang, Q. Zhang*, Xiaoxing Ke, J. Liu, Y. Jin, H. Wang*, Functional separators regulating ion transport enabled by metal-organic frameworks for dendrite-free lithium metal anodes. Adv. Funct. Mater., 2021, 2102938.
2. Z. Hao, Q. Zhao, J. Tang, Q. Zhang*, J. Liu, Y. Jin, H. Wang*, Functional separators towards the suppression of lithium dendrites for rechargeable high-energy batteries. Mater. Horiz., 2021, 8, 12.
3. Q. Huang, J. Wang, H. Gong, Q. Zhang*, M. Wang, W. Wang, J. P. Nshimiyimana, X. Diao*, A rechargeable electrochromic energy storage device enabling effective energy recovery. J. Mater. Chem. A, 2021, 9, 6451.
4. Q. Zhao, Z. Hao, J. Tang, X. Xu, J. Liu, Y. Jin, Q. Zhang*, Hao Wang, Cation-Selective Separators for Addressing the Lithium–Sulfur Battery Challenges. ChemSusChem, 2021, 14, 792.
5. C. Wu, T. Xiao, J. Tang, Q. Zhang*, Z. Liu, J. Liu, H. Wang, Biomimetic temperature-gated 2D cationic nanochannels for controllable osmotic power harvesting. Nano Energy, 2020, 76, 105113.
6. Z. Hao, T. Zhou, T. Xiao, H. Gong, Q. Zhang*, H. Wang, J. Zhai, Electrochromic nanochannels for visual nanofluidic manipulation in integrated ionic circuits. ACS Appl. Mater. Interfaces, 2020, 12, 57314.
7. H. Gong, K. Zhou, Q. Zhang*, J. Liu, H. Wang*, H. Yan, A self-patterning multicolor electrochromic device driven by horizontal redistribution of ions. Solar Energy Materials and Solar Cells, 2020, 215, 110642.
8. Z. Hao, Q. Zhang*, X. Xu, Q. Zhao, C. Wu, J. Liu, H. Wang*, Nanochannels regulating ionic transport for boosting electrochemical energy storage and conversion: a review. Nanoscale, 2020, 12, 15923-15943.
9. K. Xu, Q. Zhang*, Z. Hao, Y. Tang, H. Wang*, J. Liu, H. Yan, Integrated electrochromic supercapacitors with visual energy levels boosted by coating onto carbon nanotube conductive networks. Solar Energy Materials and Solar Cells, 2020, 206, 110330.
10. L. Liu, Q. Zhang*, K. Du, Z. He, T. Wang, Y. Yi, M. Wang, X. Zhong, G. Dong, X. Diao*, An intelligent and portable power storage device able to visualize the energy status. J. Mater. Chem. A, 2019, 7, 23028.
11. K. Zhou, Q. Zhang*, Z. Wang, C. Wang, C. Han, X. Ke, Z. Zheng, H. Wang*, J. Liu, H. Yan, Setaria-inflorescence-structured catalyst based on nickel–cobalt wrapped silver nanowire conductive networks for highly efficient hydrogen evolution. J. Mater. Chem. A, 2019, 7, 26566.
12. Q. Zhang, J. Kang, Z. Xie, X. Diao, Z. Liu*, J. Zhai*, Highly Efficient Gating of Electrically Actuated Nanochannels for Pulsatile Drug Delivery Stemming from a Reversible Wettability Switch, Advanced Materials, 2018, 4, 1703323.
13. Q. Zhang, Q. Liu, J. Kang, Q. Huang, Z. Liu, X. Diao*, J. Zhai*, Robust Sandwich-Structured Nanofluidic Diodes Modulating Ionic Transport for an Enhanced Electrochromic Performance, Advanced Science, 2018, 1800163.
14. Q. Zhang, X. Li, Y. Chen, Q. Zhang, H. Liu, J. Zhai*, X. Yang*, High-Performance Respiration-based Biocell Using Artificial Nanochannels Regulation. Advanced Materials, 2017, 24, 1606871.
15. Q. Zhang, Z. Zhang, H. Zhou, Z. Xie, L. Wen, Z. Liu*, J. Zhai*, X. Diao, Redox Switch of Ionic Transport in Conductive Polypyrrole-Engineered Unipolar Nanofluidic Diodes. Nano Research, 2017, 10, 3715.
16. C. Meng, B. Wang, Z. Gao, Z. Liu*, Q. Zhang*, J. Zhai. Insight into the Role of Surface Wettability in Electrocatalytic Hydrogen Evolution Reactions Using Light-Sensitive Nanotubular TiO₂ Supported Pt Electrodes. Scientific Reports, 2017, 7, 41825.
17. Q. Zhang, T. Xiao, N. Yan, Z. Liu*, J. Zhai*, X. Diao, Alternating Current Output from a Photosynthesis-Inspired Photoelectrochemical Cell, Nano Energy, 2016, 28, 188.
18. Q. Zhang, Z. Liu*, K. Wang, J. Zhai*, Organic/Inorganic Hybrid Nanochannels Based on Polypyrrole-embedded Alumina Nanopore Arrays: Light- and pH-responsive Ionic Transport, Advanced Functional Materials, 2015, 25, 2091.
19. Q. Zhang, Z. Liu*, J. Zhai*, Photocurrent Generation in a Light-harvesting System with Multifunctional Artificial Nanochannels, Chemical Communications, 2015, 51, 12286.
20. Q. Zhang, Z. Hu, Z. Liu*, J. Zhai*, L. Jiang, Light-Gating Titania/Alumina Heterogeneous Nanochannels with Regulatable Ion Rectification Characteristic, Advanced Functional Materials, 2014, 24, 424.
21. Q. Zhang, Z. Liu*, X. Hou, X. Fan, J. Zhai*, L. Jiang, Light-regulated Ion Transport through Artificial Ion Channels Based on TiO₂ Nanotubular Arrays, Chemical Communications, 2012, 48, 5901.