招生专业

招生/招聘信息：欢迎对微纳光子器件感兴趣的硕/博士生和博士后加入课题组。

Openings: We are looking for self-motivated undergraduate students, graduate students and postdocs who have passion in studying nano and micro-scale photonic devices.

个人简介

周陶杰博士，现任华南理工大学微电子学院副教授，主持国家自然科学基金青年基金等项目。主要从事新型光子晶体激光器、纳米光子器件及集成、拓扑光子器件等领域研究，以一作或通讯作者在Nature Communications、Light: Science & Applications、Optica、Nanophotonics、ACS Photonics等期刊发表学术论文。

Dr. Zhou currently serves as an  Associate  Professor at the School of Microelectronics, South China University of Technology, supported by projects including the National Natural Science Foundation of China. His main research focuses on novel photonic crystal lasers, nanophotonic devices and integration and topological photonic devices, resulting in publications as first or corresponding author in journals such as Nature Communications, Light: Science & Applications, Optica, Nanophotonics and ACS Photonics.

研究方向

光子晶体激光器、拓扑光子、纳米光子器件及集成

授课课程

《半导体物理》

学术任职

担任《Rare Metals》青年编委

科研项目

1.国家自然科学基金青年科学基金项目，主持

2.广东省基础与应用基础研究基金面上项目，主持

3.中央高校基本科研业务费，主持

4.广州市基础与应用基础研究项目，主持

代表性科研成果

1.Jingwen Ma, Taojie Zhou, et al. Room-temperature continuous-wave topological Dirac-vortex microcavity lasers on silicon. Light: Science & Applications.(2023), 12(1), 255. (co-first author)

2.Taojie Zhou, Jingwen Ma, et al. Monolithically integration of room temperature continuous-wave nanolasers based on topological corner state. ACS Photonics. (2022), 9 (12), 3824-3830.

3.Taojie Zhou, Mingchu Tang, et al. Single-mode photonic crystal nanobeam lasers monolithically grown on Si for dense integration, IEEE Journal of Selected Topics in Quantum Electronics. (2022), 28, 1-6. 

4.Taojie Zhou, Mingchu Tang, et al. Continuous-wave quantum dot photonic crystal Lasers Grown on On-axis Silicon (001). Nature Communications, (2020), 11(1), 1-7. 

5.Taojie Zhou, Kar Wei Ng, et al. Ultra-thin curved visible microdisk lasers with three-dimensional whispering gallery modes. Nanophotonics, (2020), 9(9): 2997-3002. 

6.Taojie Zhou, Mingchu Tang, et al. Ultra-low threshold InAs/GaAs quantum dot microdisk lasers on planar on-axis Si (001) substrates. Optica, (2019), 6(4): 430-435. 

7.Taojie Zhou, Guohong Xiang, et al. Cantilever-based freestanding InGaP/InGaAlP quantum wells microring lasers. Applied Physics Letters, (2019), 114(7), 071103. 

8.Taojie Zhou, Jie Zhou, et al. Microscale local strain gauges based on visible micro-disk lasers embedded in a flexible substrate. Optics Express, (2018), 26, 16797-16804.