PROGRAM OVERVIEW

The Institute of Micro-Nano Optoelectronics of Shenzhen University has four main research directions:Laser optics and applications, Micro-scale light field manipulation, Micro-structure optoelectronics，Two-dimensional material optoelectronics.

Shenzhen University was authorized to award doctoral degrees in optical engineering in 2006 and establlished the first post-doctoral station of optical engineering in Southern China in 2007.The discipline of optical engineering was selected as a key discipline of Guangdong Province in 2012. The discipline of optical engineering was selected as a key construction discipline of high-level universities in Guangdong Province in 2015.According to  the fourth round of national discipline evaluation results, Shenzhen University's optical engineering discipline won B+, ranking 9th with Tsinghua University.Shenzhen University Optical Engineering ranked 5th in Shanghai Kesoft's 2018 "China's Best Siscipline Rankings" and ranked 2th in Shanghai Kesoft's 2018 "China's Best Siscipline Rankings".In The Times Higher Education Chinese Discipline Evaluation, Shenzhen University Optical Engineering is rated as a category A discipline.

CORE COURSES

《Higher optical》、《Advanced laser technology》、《Advanced material characterization technology》
、《Nonlinear optics》

CAREER PROSPECTS

Mainly engaged in r&d work in photoelectric enterprises。

Consultation

Email:                    

Email

xkliu@szu.edu.cn

Introduction

Education

2008-2013 Ph.D. Electrical and Computer Engineering, National University of Singapore,

2004-2008 B.Sc. (Hons), Material Science, National University of Singapore

Research Field:

1)GaN-based power devices;

2)2D-based electronic and photonic devices;

Research and Teaching Interests

My research focuses on the development of advanced power electronics using CMOS-compatible materials and processes. We aim to demonstrate electronic and optoelectronic chips that will revolutionize future computing, 5G/6G communication, and sensing systems. Partnering with industry players is always my research strategy to generate impact on the existing and future economy. My teaching covers basic material sciences, advanced semiconductor process technologies, and power electronic devices.

Google Scholar:

https://scholar.google.com/citations?user=j3t4lMgAAAAJ&hl=en

Email

sllee@szu.edu.cn

Introduction

Prof Lee’s research mainly focuses on microscopic skills and nanotechnology. His research interest involves the utilization of scanning tunneling microscope (STM) to explore materials science at the nanoscale level, the materials assemblies and their phase transitions triggered by light, electric as well as other stimuli. He is also interested in exploring surface modifications, electrochemistry and energy materials. His research works have been published in J. Am. Chem. Soc., Angew. Chem. Int. Ed., Small Methods, and Advance Energy Materials.

Email

xgli@szu.edu.cn

Introduction

In recent years, we have been mainly engaged in the theoretical study of quantum plasmonics. Plasmonics is an interdisciplinary direction surrounding the principles and applications of surface plasmons, and It has attracted researchers from different fields , including physics, chemistry, material, and electronic engineering. My research focuses on the novel physical phenomena and principles brought about by the coupling of metal plasmons and molecular excitons in the metal-molecular coupling system, as well as the new methods required. In addition, we have also studied the excitation and propagation properties of graphene plasmons, the emission characteristics of semiconductor quantum dots and metal coupling systems, and first-principles calculations of novel optoelectronic materials.

Email

shuqingchen@szu.edu.cn

Introduction

Chen Shuqing, Ph.D., Associate Professor, he was selected into the list of "World’s Top 2% Scientists", "Shenzhen Overseas High-level Talents", and "Pilot Talents in Nanshan District, Shenzhen". He is mainly engaged in the research of high-speed optical communication technologies, micro-nano photonic information processing devices and intelligent information processing technologies; published more than 60 papers in international journals such as Light Sci. Appl., ACS Photonics, Photonics Res., etc., which were cited more than 2700 times (Google Scholar); served as editorial board member of Sci. Rep.; organized academic topics in SCI journals; applied for more than 30 invention patents; as the person in charge, he presided over more than 10 projects.

Email

fhui79@szu.edu.cn

Introduction

Earned PhD in physics from Boston University in 2005, and then performed Postdoc research in biomedical optical microscopy at Harvard Medical School and Washington University in St. Louis from 2005 to 2008. Held a professorship in Nankai University from 2008 to 2014, and then holding a professorship in Shenzhen University started from 2014. Currently being interested in three major research directions collaborated with other teachers: 1) Manipulating colloidal particle group motion with structured light, 2) Interaction of liquid metal microstructures with light and its application; 3)Polarized optical characterization of 2d magnetic materials. 

Email

yongxiang.gao@szu.edu.cn

Introduction

Prof Yongxiang Gao obtained his PhD in Physics from McGill University. He has postdoctoral experiences in several world-class universities, including Oxford University. He was awarded Marie-Curie Fellow from the European commission, One-Hundred Youth Talent Scholar of Shaanxi Province, and Shenzhen Overseas High-Level Talent. His research focuses on soft matter, with a particular effort on developing advanced chemical methods for controlling the morphology and site-specific chemistry of colloids with high precision and using them as model systems to tackle challenging problems in the field of condensed matter physics, self-assembly, active matter, and micro/nanomotors. His group has published 35 articles in world-renowned journals, such as Physical Review Letters, Macromolecules, ACS Applied Materials and Interfaces, Journal of Materials Chemistry A and Soft Matter. His research has received funding from Natural Science Foundation of China, Natural Science Foundation of Guangdong, Guangdong Provincial Department of Education, and Natural Science Foundation of Shenzhen.