副教授,硕士生导师,每年招收3-5名硕士研究生,欢迎喜欢科研、勤奋好学的本科生和硕士加入课题组。
邮箱:dingsu@jiangnan.edu.cn
主要研究方向:
1 柔性传感器设计及其在可穿戴电子器件中的应用;
2 电子封装材料制备及其可靠性研究。
主持的科研项目:
2025年,中央高校基本业务费,主持,在研;
2023年,国家重点实验室开放课题,主持,结题;
2022年,陕西省自然科学基金项目,主持,结题;
2022年,国家自然科学基金委国际合作与交流项目,参与,结题;
2022年,西安电子科技大学研究生教改项目,主持,结题;
2018年,国家自然科学基金青年项目,主持,结题…
学术成果:
1.J. Chen, W. Li, K. Li, H. Zhang,S. Ding*. Solution polarity modulated electrochromic devices with tunable colored states.Chem. Comm., 2025, Accept.
2.S. Ding, Z. Li, Q. Li, H. Zhou, N. Cui, L. Gu, W. Li, K. Li, R. Yang*, Z. Jiang*. Failure mechanism of flexible transparent conductor materials under high current,ACS Appl. Electron Mater., 2025, Accept.
3.S. Ding, J. Chen, K. Li*, H. Zhang*. Fabrication strategies for metallic nanowire flexible transparent electrodes with high uniformity.J. Mater. Chem. A, 2024, 24: 18815-18831.
4.S. Ding, T. Yin, D. Yang, S. Zhang, H, Zhou, S. Guo, Q. Li, Y. Wang, Y. Yang, R. Yang*, Z. Jiang*.Fast-speed, highly sensitive, flexible humidity sensors based on a printable composite of carbon nanotubes and hydrophilic polymers.Langmuir,2023, 39, 4, 1474-1481.
5.S. Ding, S. Zhang, T. Yin, H. Zhang, Y. Wang, Q. Li, N. Zhou, F. Su, Z. Jiang, D. Tan, R. Yang*. Room temperature nanojoining of silver nanowires by graphene oxide for highly conductive flexible transparent electrodes with high stability.Nanotechnology, 2023, 34: 045201.
6.Y. Yang,S. Ding, B. Plovie, W. Li, C. Shang. Soft and stretchable electronics design. Encyclopedia of Sensors and BioSensors, Elsevier, 2021. (Book Chapter)
7.S. Ding*,Z. Jiang*, F. Chen, L. Fu, Y. Lv, Y. Qian, S. Zhao.Intrinsically stretchable, transient conductors from a composite material of Ag flakes and gelatin hydrogel.ACS Appl. Mater. Interfaces,2020, 12(24): 27572-27577.
8.S. Ding*, J. Mao, F. Chen, L. Fu, Y. Lv, S. Zhao. Highly conductive and transient tracks based on silver flakes and polyvinyl pyrrolidone composite.RSC Adv.,2020, 10: 33112-33118.
9.Z. Jiang. M. Nayeem, K. Fukuda,S. Ding, H. Jin, T. Yokota, D. Inoue, D. Hashizume, T. Someya. Highly stretchable metallic nanowire networks reinforced by the underlying randomly distributed elastic polymer nanofibers via interfacial adhesion improvement.Adv. Mater., 2019, 31(37): 1903446.
10.S. Ding,Y. Tian*. Recent progress of solution-processed Cu nanowires transparent electrodes and their protection.RSC Adv.2019, 9: 26961-26980.
11.S. Ding*, L. Zhang, W. Su*, X. Huang. Facile fabrication of highly conductive tracks using long silver nanowires and graphene composite.RSC Adv., 2018(8): 17739-17746.
12.S. Ding, J. Jiu*, Y. Gao,Y. Tian*, T. Araki, T. Sugahara,S. Nagao, M. Nogi, H. Koga,K. Suganuma, H. Uchida. One-step fabrication of stretchable copper nanowire conductors by a fast photonic sintering technique and its application in wearable devices.ACS Appl. Mater. Interfaces, 2016, 8(9): 6190-6199.
13.S. Ding,J. Jiu*, Y. Tian*, T. Sugahara,S. Nagao,K. Suganuma.Fast fabrication of copper nanowire transparent electrodes by a high intensity pulsed light sintering technique in air.Phys. Chem. Chem. Phys.,2015,17:31110-31116.
14.S. Ding, C. Xu*, W. Wang, Y. Huang, L. Zhen.Formation of tubular BaTiO3nanoparticles assembly through the Kirkendall effect using Na2Ti3O7nanowires as template.Mater. Res. Bull., 2013, 48: 4565-4569.
