光学工程博士,副教授,硕士生导师,江西九江人,1990年9月生。
Email:zouqiushun@nbu.edu.cn
(1) 2022-11至今, 宁波大学, 信息科学与工程学院, 副教授
(2) 2021-09至2022-11, 中山大学, 材料科学与工程学院, 特聘副研究员
(3) 2019-07至2021-08, 中山大学, 材料科学与工程学院, 博士后
(4) 2016-08至2019-06, 中山大学, 光学工程, 博士
(5) 2013-09至2016-06, 南昌大学, 光学, 硕士
科研工作主要围绕二维、三维多尺度超材料在光场调控领域的新物理、新技术和新应用进行了深入探索,在微纳加工、数值模拟和理论分析以及性能表征和功能性器件研制等方面积累了丰富的第一线经验。目前已发表近20篇高质量SCI论文,其中,以第一作者或共同第一作者在ACS Nano, ACS Applied Materials & Interfaces, Nanoscale, Optics Express等国际著名期刊上发表论文8篇。已申请并公开国内发明专利3项。项目方面,分别主持了一项国家自然科学基金青年科学项目和中国博士后科学基金面上项目。
主要研究方向:
1. 微纳光子学及先进微纳光子结构制备技术(二维和三维超材料中光场调控的新物理、新技术与新应用、超透镜等);
2. 微流控生物分子传感芯片;
3. 基于新机理的微纳传感器(如光电探测器、生物分子检测、气体传感、湿度传感、应变传感等);
4. 微纳结构与红外光纤交叉融合。
欢迎对上述方向感兴趣的本科生到课题组做科研训练和毕业设计,常年招收学(专)硕士。
1. Zou Q.S.; Ou-yang J.; She X.Y.; Shen Y.; Jin C.J.* Fabricating 3D freestanding metamaterials on elastic substrates via the shadow metal-sputtering and plastic deformation. Nanoscale, 2023, 15, 8978-8987. [IF=8.307]
2. Zou Q.S.#; He k.#; Ouyang J.; Zhang Y.L.; Shen Y.*; Jin C.J.* Highly sensitive and durable sea-urchin shaped silver nanoparticles strain sensors for human activity monitoring. ACS Applied Materials &Interfaces 2021, 13, 14479-14488. [IF=10.383]
3. Zou Q.S.; Shen Y.; Ouyang J.; Zhang Y.L.; Jin C.J.* Polarization-insensitive graphene photodetectors enhanced by a broadband metamaterial absorber. Optics Express 2021, 29, 24255-24263. [IF=3.833]
4. Liu W.J.#; Zou Q.S.#(共同第一作者); Zheng C.Q.; Jin C.J.* Metal-assisted transfer strategy for the construction of 2D and 3D nanostructures on an elastic substrate. ACS Nano 2019, 13, 440-448. [IF=18.027]
5. Zou Q.S.#; Liu W.J.#; Shen Y.*; Jin C.J.* Flexible plasmonic modulators induced by the thermomechanical effect. Nanoscale 2019, 11, 11437-11444. [IF=8.307]
6. Zou Q.S.; Yu T.B.*; Liu W.X.; Wang T.B.; Liu N.H.; Liao Q.H. Decoupling of multiple coupled phononic crystal waveguides: application to acoustic demultiplexing. Journal of Physics D: Applied Physics 2017, 50, 125102.
7. Zou Q.S.; Yu T.B.*; Wang T.B.; Liu N.H.; Liao Q.H.; Xu X.M. Novel 1×N ultrasonic power splitters based on self-imaging effect of phononic crystal waveguide arrays. Journal of Applied Physics 2016, 119, 084509.
8. Zou Q.S.; Yu T.B.*; Liu J.T.; Liu N.H.; Wang T.B.; Liao Q.H. Acoustic multimode interference and self-imaging phenomena realized in multimodal phononic crystal waveguides. Journal of Physics D: Applied Physics 2015, 48, 345301.
9. She X.Y.; Yao Q.; Zou Q.S.; Yang G.W.; Shen Y. *; Jin C.J.* Tunable Fabry-Pérot resonator with dynamic structural Color: a visual and ultrasensitive hydrogen sensor. ACS Applied Materials & Interfaces 2023, 15, 16244–16252.
10. Zheng M.; Shen Y.*; Zou Q.S.; Huang Y.; Huang K.; She X.Y.*; Jin C.J.* Moisture-Driven Switching of Plasmonic Bound States in the Continuum in the Visible Region. Advanced Functional Materials 2022, 33, 2209368.
11. Shen Y.; He K..; Zou Q.S.; Xing S.; Huang J.Y.; Zheng M. C. She X.Y.; Jin C.J.* Ultrasmooth gold nanogroove arrays: ultranarrow plasmon resonators with linewidth down to 2 nm and their applications in refractive index sensing. Advanced Functional Materials 2021, 2108741.
12. Shen Y.; Wang G.C.; Zou Q.S.; She X.Y.; Cai D.; Jin C.J.* Ultrasensitive dual-mode humidity detection using a plasmon-photonic hybrid waveguide. Advanced Optical Materials 2021, 9, 2100166.
13. Liu W.J.; Zhuo Q.X.; Wen K.H.; Zou Q.S.; Hu X.L.*; Qin Y.W. Integrated plasmonic biosensor on a vertical cavity surface emitting laser platform. Optics Express 2021, 29, 40643-40651.
14. Shen Y.; Zou Q.S.; Wan B.; She X.Y.; Jin C.J.* High-contrast dynamic reflecting system based on pneumatic micro/nanoscale surface morphing. ACS Applied Materials & Interfaces 2021, 1, 1988–1999.
15. Liu W.J.; Hu X.L.; Zou Q.S.; Wu S.Y.; Jin C.J.* Low-loss integrated electrical surface plasmon source with ultra-smooth metal film fabricated by polymethylmethacrylate ‘bond and peel’ method. Nanotechnology 2018, 29, 24LT01.
16. Xu F.X.; Zou Q.S.; Zhou Q.C.; Wang T.B.; Yu T.B.*; Liu N.H. Self-imaging effect in photonic quasicrystal waveguides: application to 3 dB power splitter for terahertz waves. Optics Communication 2016, 367, 108-111.
专利
1. 金崇君; 邹秋顺; 刘文杰 ; 一种在弹性衬底上制备微纳结构的方法, 2018-10-23, 中国, 201811235317 .8
2. 金崇君; 邹秋顺; 一种动态可重构的柔性等离激元调制器及 其制备方法, 2019-6-27, 中国, 201910566773 .9
3. 邹秋顺; 沈祥;张培晴;刘自军;一种三维多尺度超材料的制备方法, 2023-3-17, 中国, 2023102567114