必赢bwin线路检测中心

师资力量

当前位置: 必赢线路检测中心 > 师资力量 > 在职教师 > 正文 >


undefined

 

张骞 (Qian Zhang),男,博士,副教授,硕士生导师,重庆市高层次人才。2019年博士毕业于利物浦大学,之后于新加坡国立大学进行博士后研究,于2022年加入必赢线路检测中心。现主持科技部重点研发计划子课题,中央高校基本科研业务经费,重庆大学人才引进科研启动项目参研科技部重点研发计划课题。目前,已经发表SCI论文30余篇,以一作/通讯在Nature Materials, Nano Letters, JPCL, Nanoph等期刊发表论文,获得重庆市化学化工学会科学进步一等奖一项。主要从事功能性有机分子器件,电化学强化等工作。

工作/学习经历

2022-至今  必赢线路检测中心,副教授

2019-2022     National University of Singapore, NUSRICQ, 博后

SupervisorsProf. Christian Nijhuis, Prof. Yongxin Guo 院士)

2015-2019     University of Liverpool,博士

SupervisorsProf. Li Yang, Prof. Richard Nichols

2013-2015     Trinity College Dublin,硕士

SupervisorProf. Fabio Boylan

2009-2013      南京工业大学,工学学士


联系方式

Email: qianz@cqu.edu.cn;

研究方向

1. 功能性有机分子电子:分子二极管,忆阻器,负微分电阻等分子器件与传感器的结构设计、机理机制与性能调控

2. 化工过程强化:电化学强化与处理;微波电场强化与装备

3. 精密电学表征: 界面电学超高精度测量;精密测量单元;工业软件自动化控制

(招生学科:0703 化学;0856 材料与化工)

代表性论文、专著和专利

1. Wang, Y.; Zhang, Q#.; Astier, H. P. A. G.; Nickle, C.; Soni, S.; Alami, F. A.; Borrini, A.; Zhang, Z.; Honnigfort, C.; Braunschweig, B.; Leoncini, A.; Qi, D.-C.; Han, Y.; del Barco, E.; Thompson, D.; Nijhuis, C. A., Dynamic molecular switches with hysteretic negative differential conductance emulating synaptic behaviour. Nature Materials 2022, 21, 1403-1411. (#Co-first, Equal Contribution)

   --Highlighted in News and Views of Nature Materials: “Molecular electronics go synaptic”

2. Zhang, Q.; Liu, L.; Tao, S.; Wang, C.; Zhao, C.; González, C.; Dappe, Y. J.; Nichols, R. J.; Yang, L. Graphene as a Promising Electrode for Low-Current Attenuation in Nonsymmetric Molecular Junctions, Nano Letters 2016, 16, (10), 6534-6540.

3. Zhang, Q.; Tao, S.; Yi, R.; He, C.; Zhao, C.; Su, W.; Smogunov, A.; Dappe, Y. J.; Nichols, R. J.; Yang, L. Symmetry Effects on Attenuation Factors in Graphene-BasedMolecular Junctions, J. Phys. Chem. Lett. 2017, 8, 5987−5992.

   --Highlighted in ACS LiveSlides

4. Zhang, Q.; Liu, C.; Tao, S.; Yi, R.; Su, W.; Zhao, C.; Zhao, C.; Dappe, Y. J.; Nichols, R. J.; Yang, L. Fast and straightforward analysis approach of charge transport data in single molecule junctions, Nanotechnology 2018, 29, 325701.

5. Zhang, Q.; Tao, S.; Fan, Y.; Zhao, C.; Zhao, C.; Su, W.; Dappe, Y. J.; Nichols, R. J.; Yang, L. Technical Effects of Molecule–Electrode Contacts in Graphene-Based Molecular Junctions, J. Phys. Chem. C 2018, 122, 23200–23207.

6. Zhang, Q.; Porto, N.M.; Guilhon, C.C.; Giorno, T.B.S.; Alviano, D.S.; Agra, M.d.F.; Fernandes, P.D.; Boylan, F. Pharmacognostic Study on Elsholtzia ciliata (Thumb.) Hyl: Anatomy, Phytochemistry and Pharmacological Activities, Pharmaceuticals 2021, 14, 1152.

7. Zhang,Q.; Guihon,C.C,; Fernandes, P. D.; Boylan, F. Antinociceptive and anti-inflammatory activities of Elsholtzia ciliata (Thunb.) Hyl. (Lamiaceae) extracts, Planta Med. 2014, 80, 16.

8. Tao. S, Zhang. Q, Pitie. S, Liu. C, Fan. Y, Zhao. C, Seydou. M, Dappe. Y, Nichols. R, *Yang. L. Revealing conductance variation of molecular junctions based on an unsupervised data analysis approach, Electrochim. Acta, 2023, 449, 142225.

9. Tao. S, Zhang. Q, Vezzoli. A, Zhao. C, Zhao. C, Higgins. S, Smogunov. A, Dappe. Y, Nichols. R, Yang. L. Electrochemical gating for single-molecule electronics with hybrid Au|graphene contacts, Phys. Chem. Chem. Phys., 2022, 24, 6836.

10. He, C.; Zhang, Q.; Gao, T.; Liu, C.; Chen, Z.; Zhao, C.; Zhao, C.; Nichols, R. J.; Dappe, Y. J.; Yang, L. Charge Transport in Hybrid Platinum/Molecule/Graphene Single Molecule Junctions, Phys. Chem. Chem. Phys. 2020, 22, 13498.

11. Tao, S.; Zhang, Q.; He, C.; Lin, X.; Xie, R.; Zhao, C.; Zhao, C.; Smogunov, A.; Dappe, Y. J.; Nichols, R. J.; Yang, L. Graphene-contacted single molecular junctions with conjugated molecular wires, ACS Appl. Nano Mater. 2019, 2, 12-18.

12. Yi, R.; Liu, C.; Zhao, Y.; Hardwick, L. J.; Li, Y.; Geng, X.; Zhang, Q.; Yang, L.; Zhao, C. A Light-weight Free-standing Graphene Foam-based Interlayer towards Improved Li-S Cells, Electrochim. Acta 2019, 299, 479-488.

13. He, C.; Zhang, Q.; Fan, Y.; Zhao, C.; Zhao, C.; Ye, J.; Dappe, Y. J.; Nichols, R. J.; Yang, L. Effect of Asymmetric Anchoring Groups on Electronic Transport in Hybrid Metal/Molecule/Graphene Single Molecule Junctions, ChemPhysChem 2019, 20, (14), 1830-1836.

14. Yi, R.; Lin, X.; Zhao, Y.; Liu, C.; Li, Y.; Hardwick, L. J.; Yang, L.; Zhao, C.; Geng, X.; Zhang, Q. Fabrication of a Light-Weight Dual-Function Modified Separator towards High-Performance Lithium-Sulfur Batteries, ChemElectroChem 2019, 6, (14), 3648-3656.

15. He, C.; Zhang, Q.; Tao, S.; Zhao, C.; Zhao, C.; Dappe, Y. J.; Nichols, R. J.; Yang, L. Carbon-Contacted Single Molecule Electrical Junctions, Phys. Chem. Chem. Phys., 2018, 20, 24553-24560.

16. Liu, L.; Zhang, Q.; Tao, S.; Zhao, C.; Almutib, E.; Al-Galiby, Q.; Bailey, S. W. D.; Grace, I.; Lambert, C. J.; Du, J.; Yang, L. Charge transport through dicarboxylic-acid-terminated alkanes bound to graphene-gold nanogap electrodes, Nanoscale 2016, 8, 14507.

17. Tang. X, Qiu. F, Li. H, Zhang. Q, Quan. X, Tao. C, Wang. Y, Liu. Z*. Ind. Eng. Chem. Res. 2023, 62, 1984–1996

18. Wang. S, Xiong. X, Liu. P, Zhang. Q, Zhang. Q, Tao. C, Wang. Y, Liu. Z. Chin J Chem Eng. 2023

19. Wu, J.; Zhao, Y.; Zhao, C. Z.; Yang, L.; Lu, Q.; Zhang, Q.; Smith, J.; Zhao, Y. Materials 2016, 9, 695.

20. Lu, Q.; Mu, Y.; Roberts, J. W.; Althobaiti, M.; Dhanak, V. R.; Wu, J.; Zhao, C.; Zhao, C. Z.; Zhang, Q.; Yang, L.; Mitrovic, I. Z.; Taylor, S.; Chalker, P. R. Materials 2015, 8, 8169-8182.

21. He, A.; Yang, Y.; Tao, S.; Zhou, X.; Wu, A.; Zhang, Q.; Tao, C.; Du, J. Fuel 2024, 358, 130057.

22. Zhong, H.; Zhang, Q.*; Liu, Z.; Du, J.; Tao, C. ACS Omega 2023, 8, (41), 38469-38480. (*corresponding author)

23. Yang, J.; Li, C.; Zhang, Q.; Huang, K.; Liu, P.; Liu, Z.; Li, Z.; Meng, T.; Zhang, X.; Wu, J.; Tao, C.; Zheng, G. International Journal of Bifurcation and Chaos 2023, 33, (14), 2350173.




团队仪器设备

-