PROGRAM OVERVIEW

I. Talent Cultivation Orientation and Goals
The talent cultivation orientation of the discipline of Electronic Science and Technology at Shenzhen University is to meet the major strategic needs of the country, base on the construction of the "dual - zones", focus on the fundamental task of fostering virtue through education, adhere to the "Four - for" principle, and cultivate high - quality and high - level innovative talents in the field of Electronic Science and Technology. The talent cultivation goal is to train high - level innovative and international - oriented talents in the field of Electronic Science and Technology with excellent political literacy, solid professional knowledge, outstanding scientific research capabilities, and broad international vision.

II. Disciplinary Research Characteristics and Contributions
This discipline has distinct research characteristics. Based on the construction of the "dual - zones" and relying on the National Key Laboratory of Radio - Frequency Heterogeneous Integration, it conducts scientific research and has made key breakthroughs in areas such as three - dimensional heterogeneous integration, single - bit radar micro - systems, and terahertz high - power amplification. It has provided an important scientific and technological platform for China's semiconductor chip industry, important technical support for the development of national defense weaponry and equipment, and important solutions for the development of low - altitude economy in Shenzhen.

This discipline has four secondary disciplines, and their research directions and disciplinary advantages are as follows:

(A) Electromagnetic Field and Microwave Technology

1. Research Direction: Focus on areas such as radio - frequency integrated circuit systems, intelligent sensing, intelligent antenna design, electron beams, terahertz electronics, and new microwave components, and carry out applied basic research and core technology research.

2. Disciplinary Advantage: Led by Professor Mao Junfa, an academician of the Chinese Academy of Sciences and the president of Shenzhen University, there is the National Key Laboratory of Radio - Frequency Heterogeneous Integration. It undertakes dozens of major national scientific and technological tasks in the field of radio - frequency integrated circuits and electronic packaging integration, overcomes key problems in the field of radio - frequency heterogeneous integration, and develops a series of microwave and millimeter - wave components, integrated circuits and systems for major national needs, making important contributions to the implementation of many major national projects and the development of national defense equipment.

(B) Circuits and Systems

1. Research Direction: Conduct applied basic research and core technology research around the field of intelligent sensing integrated circuits and systems for unmanned platforms, supporting the development of Shenzhen's low - altitude economy.

2. Disciplinary Advantage: There are platforms such as the Guangdong Intelligent Unmanned Systems and Autonomous Environment Sensing Engineering Technology (Joint) Research Center and the Guangdong Integrated Circuit Talent Training Base. In response to the resource - limited problem of unmanned systems, it breaks through technical bottlenecks such as massive data sensing, processing, transmission, and storage, and forms a series of innovative results with international influence, such as single - bit radar micro - systems, intelligent image sensing chips, intelligent embedded systems, and high - speed single - bit ADC chips.

(C) Microelectronics and Solid - State Electronics

1. Research Direction: Focus on new semiconductor storage devices, functional thin - film and devices, and surface - acoustic - wave devices, achieving many results in functional material preparation, device processing, and application research.

2. Disciplinary Advantage: Led by Professor Wang Guoping, a national outstanding youth winner, there are platforms such as the Guangdong Flexible Wearable Energy and Device Engineering Technology Research Center. It has won a second - class National Science and Technology Progress Award in the research field of high - generation surface - acoustic - wave materials and filter industrialization technology. The results in the directions of new nano - devices and artificial micro - structure materials and devices have been highlighted and covered by international top - level scientists such as Nobel Prize winners in academic journals such as Science, Nature, and Reviews of Modern Physics.

(D) Physical Electronics

1. Research Direction: Conduct high - level and frontier theoretical and applied research around cold - atom physics, quantum precision measurement, laser technology, and nanophotonics.

2. Disciplinary Advantage: There are platforms such as the Key Laboratory of Optoelectronic Devices and Systems of the Ministry of Education. It has achieved systematic innovative results in aspects such as quantum correlation and phase transition of optical - lattice cold - atom systems and universal characteristic characterization of quantum phase - transition dynamics of Bose - condensed atom systems. It has proposed a high - precision phase - measurement theory based on adiabatic quantum phase transition, established an effective plan for quantum precision measurement and sensing based on cold atoms, and produced a batch of results with important international influence.

CORE COURSES

CAREER PROSPECTS

Teachers or researchers of colleges or scientific research institutions, and technical personnel or engineers of enterprises.

Consultation

Email:                wupq@szu.edu.cn    

专业简介

一、人才培养定位与目标

深圳大学电子科学与技术学科的人才培养定位是面向国家重大战略需求，立足“双区”建设，围绕立德树人根本任务，坚持“四为”方针，培养电子科学与技术领域高素质高水平创新人才。人才培养目标是培养具有优良的政治素养、扎实的专业知识、优秀的科研能力和广阔的国际视野的电子科学与技术领域高层次创新型国际化人才。

二、学科研究特色与贡献

本学科研究领域特色鲜明，立足“双区”建设，依托射频异质异构集成全国重点实验室开展科学研究，在三维异质异构集成、单比特雷达微系统、太赫兹高功率放大等领域取得关键性突破，为我国半导体芯片产业提供了重要的科技平台，为国防武器装备发展提供了重要的技术支撑，为深圳市低空经济发展提供了重要的解决方案。

  本学科下设四个二级学科，其研究方向和学科优势分别如下：

（一）电磁场与微波技术

1. 研究方向：聚焦于射频集成电路系统、智能感知、智能天线设计、电子束及太赫兹电子以及新型微波元器件等领域，开展应用基础研究和核心技术攻关。

2. 学科优势：由深圳大学校长中科院院士毛军发教授领衔，建有射频异质异构集成全国重点实验室。承担射频集成电路与电子封装集成领域数十项国家重大科技任务，攻克射频异质异构集成领域关键问题，研制出一系列面向国家重大需求的微波毫米波元器件、集成电路与系统，为国家多项重大工程实施和国防装备研制做出重要贡献。

（二）电路与系统

1. 研究方向：围绕无人平台的智能感知集成电路与系统领域，开展应用基础研究和核心技术攻关，支撑深圳市低空经济发展。

2. 学科优势：建有广东省智能无人系统与自主环境感知工程技术（联合）研究中心、广东省集成电路人才培养基地等平台。针对无人系统资源受限问题，突破海量数据感知、处理、传输、存储等技术瓶颈，形成单比特雷达微系统、智能图像传感芯片、智能嵌入式系统、高速单比特 ADC 芯片等一系列具有国际影响力的创新成果。

（三）微电子学及固体电子学

1. 研究方向：围绕新型半导体存储器件、功能薄膜与器件及声表面波器件，在功能材料制备、器件加工和应用研究方面取得诸多成果。

2. 学科优势：由国家杰青获得者汪国平教授领衔，建有广东省柔性可穿戴能源与器件工程技术研究中心等平台，在高世代声表面波材料与滤波器产业化技术研究领域荣获国家科学技术进步二等奖 1 项，在新型纳米器件、人工微结构材料与器件等方向的成果得到诺贝尔奖获得者等国际顶尖科学家在 Science、Nature、Rev. Mod. Phys. 等学术刊物上分别作为亮点、封面评价。

（四）物理电子学

1. 研究方向：围绕冷原子物理、量子精密测量、激光技术、纳米光子学等开展高水平、前沿性理论及应用研究。

2. 学科优势：建有光电子器件与系统教育部重点实验室等平台，在光晶格冷原子体系的量子关联与相变、玻色凝聚原子体系量子相变动力学的普适特性表征等方面取得系统性创新成果，提出基于绝热量子相变的高精度相位测量理论，建立基于冷原子的量子精密测量与传感有效方案，产生一批具有重要国际影响的成果。

核心课程

暂无

就业前景

高校或科研机构的教师和科研人员、企业技术人员或企业工程师

咨询方式

Email:         wupq@szu.edu.cn          

英文名

CUI XIMIN

联系邮箱

xmcui@szu.edu.cn

中文简介

 崔熹旻，男，1991年7月，博士，深圳大学电子与信息工程学院助理教授，博士生导师，广东省珠江人才计划青年拔尖人才，深圳市鹏城孔雀计划特聘岗位。2014年本科毕业于南京大学匡亚明学院理科强化班物理方向，2018年在香港中文大学取得物理学博士学位，2019-2021年于瑞典查尔姆斯理工大学进行博士后研究工作。曾获南京大学优秀毕业生，香港中文大学杨振宁奖学金等多项奖励。近年来主要从事贵金属纳米材料设计与制备，光与纳米材料相互作用机制，以及激光光镊纳米级操控技术等方面研究，先后在Science Advances，Chemical Reviews，ACS Nano，Advanced Functional Materials，Nanoscale等国际期刊发表SCI论文十余篇，并担任Light: Science & Applications，Nanoscale，Optics Express等多个期刊的评审人。

英文简介

Ximin Cui received his B.S. degree in physics from Nanjing University in 2014. He obtained his Ph.D. degree in physics from The Chinese University of Hong Kong in 2018, working under the supervision of Prof. Jianfang Wang. He joined the group of Prof. Mikael Käll at Chalmers University of Technology as a postdoctoral fellow from 2019 to 2021. He is currently an assistant professor at the College of Electronics and Information Engineering, Shenzhen University. He has published more than 20 journal papers in the fields of plasmonics, nanophotonics, and optical tweezers. Google scholar website: https://scholar.google.com.hk/citations?user=oAyJ_icAAAAJ&hl

英文名

Yachao Liu

联系邮箱

yachaoliu@szu.edu.cn

中文简介

刘亚超，副教授，博导，本科及博士均毕业于湖南大学。博士期间及博士后阶段，在英国伯明翰大学进行合作研究。目前主要从事人工光学结构与光场调控相关的物理理论和实验研究。至今已共计发表SCI论文40余篇，总引用次数超过2000次。其中，以第一作者身份在Science Advances（1篇），Light: Science & Applications（3篇），Laser & Photonics Reviews（1篇），Nanophotonics（1篇），Applied Physics Letters（1篇），Optics Letters（1篇）等知名光学期刊发表论文十余篇。多次参加SPIE、PIERS、IMSNP、中国物理学会秋季学术会议、超材料大会等国内外学术会议，并做学术报告。获得国家留学基金公派项目的资助，入选中国博士后基金国际交流派出计划及深圳市海外高层次人才，主持国家自然基金青年项目和面上项目各一项。

英文简介

Dr. Yachao Liu is currently an associate professor in the College of Electronics and Information Engineering at Shenzhen University (SZU). He received his bachelor’s and doctoral degrees from Hunan University in 2013 and 2018 respectively. He was a postdoctoral research fellow at SZU from 2018 to 2021, and served as a visiting researcher at the University of Birmingham (UK) from 2019 to 2021. Dr. Liu’s current research focuses on the physical theory and experimental study of artificial optical structures and light field manipulation. He has published more than 40 papers indexed in SCI, with his work being cited over 2,000 times. Dr. Liu’s achievements have been recognized with funding from the China Scholarship Council (CSC), the China Postdoctoral Science Foundation (CPSF), and Shenzhen Municipality. He currently leads two projects funded by the National Natural Science Foundation of China (NSFC).

英文名

Xue Ren

联系邮箱

eerenxue@szu.edu.cn

中文简介

 任雪，男，深圳大学电子与信息工程学院特聘副研究员，助理教授，博士生导师。于香港城市大学获得哲学博士学位。从事新一代移动通信天线技术以及射频电路等相关领域研究，曾参与国家973课题以及深圳市科创委重点项目等研究工作。设计的多款天线成功应用于我国型号卫星，近年来在国际学术期刊上发表论文30余篇。研究成果受邀在欧洲微波会议进行展示。目前为深圳市海外高层次人才，深圳市孔雀计划团队成员。担任IEEE TAP， IEEE AWPL, IEEE AESEM, MOTL, IET MAP，Nano等多个国际期刊评审。指导学生获得多个业内主流会议（如IEEE APCAP）和顶尖组织（如华为）的奖项。目前主持国家级，省部级以及市级重大项目等多个重要项目，研究兴趣包括毫米波太赫兹高性能天线以及射频前端系统。

英文简介

Ren Xue, male, is a specially-appointed associate researcher, assistant professor, and PhD supervisor at the College of Electronics and Information Engineering, Shenzhen University. He obtained his PhD in Philosophy from City University of Hong Kong. He specializes in research related to new-generation mobile communication antenna technology and radio frequency (RF) circuits, and has participated in research projects such as the National Basic Research Program (973 Program) and key projects of the Shenzhen Science and Technology Innovation Commission. Several antennas designed by him have been successfully applied to China's satellites. In recent years, he has published more than 30 papers in international academic journals. His research achievements have been invited to be presented at the European Microwave Conference. Currently, he is a member of the high-level overseas talent pool in Shenzhen and a member of the Peacock Plan team in Shenzhen. He serves as a reviewer for multiple international journals including IEEE Transactions on Antennas and Propagation (IEEE TAP), IEEE Antennas and Wireless Propagation Letters (IEEE AWPL), IEEE Access, Microwave and Optical Technology Letters (MOTL), IET Microwaves, Antennas & Propagation (IET MAP), and Nano. He has guided students to win awards at mainstream industry conferences (such as IEEE APCAP) and top organizations (such as Huawei). Currently, he is in charge of multiple important projects at the national, provincial, and municipal levels. His research interests include millimeter-wave and terahertz high-performance antennas and RF front-end systems.

英文名

Dingguan Wang

联系邮箱

dgwang@szu.edu.cn

中文简介

王定官，助理教授/副研究员，博士生导师，射频异质异构集成全国重点实验室成员。2013年本科毕业于华中科技大学，2016年从中国人民大学获得硕士学位（导师：王亚培），2021年从新加坡国立大学获得博士学位（导师：Andrew Wee和Jishan Wu）。主要从事低维半导体薄膜制备与功能器件、射频异质异构集成电路等方面的研究，发表论文30余篇。曾获学术新星提名奖，研究生国家奖学金，优秀毕业生，优秀墙报奖等荣誉奖励。长期担任ACS Nano，Small，Langmuir， Materials Today Electronics等学术期刊的审稿人。

英文简介

Dr. Dingguan Wang, Assistant Professor/Associate Researcher, Ph.D advisor, Member of National Key Laboratory of RF Heterogeneous Integration. Dr. Dingguan received his bachelor's degree from Huazhong University of Science and Technology in 2013, his master's degree from Renmin University of China in 2016 (Advisor: Prof. Yapei Wang), and his doctorate degree from National University of Singapore in 2021 (Advisors: Prof. Andrew Wee and Prof. Jishan Wu). Dr.Dingguan has been a reviewer for academic journals such as ACS Nano, Small, Langmuir, Materials Today Electronics.

Research Area: low-dimensional semiconductor synthesis and electronic devices, RF heterogeneous integrated circuits.

Awards: the Academic Rising Star Nomination Award, graduate National Scholarship, outstanding graduate, excellent poster award and other honorary awards.

英文名

Kedi Wu

联系邮箱

kdwu@szu.edu.cn

中文简介

 吴克迪，副教授，博士生导师，江苏省「六大人才高峰」高层次人才，深圳市鹏城孔雀计划特聘岗位。武汉大学获得学士和博士学位，在深圳大学和新加坡南洋理工大学等学校从事博士后研究，在2017年-2021年在南京理工大学任职教授。主要从事纳米光学等物理光学领域的科研工作。获得国家自然科学基金面上项目、青年科学基金项目、江苏省自然科学基金面上项目、广东省自然科学基金面上项目、广东省自然科学基金青年项目。成果列表在谷歌学术https://scholar.google.com/citations?user=kIvUY0MAAAAJ

英文简介

Kedi Wu received the bachelor's degree and Ph.D. degree in physics from the Wuhan University, Wuhan, China, in 2008 and 2014, respectively. His Ph.D. dissertation was on Fourier Analysis and Simulations of Optical Invisibility, Nanopatterns Recognition, and Super-resolution Imaging. In 2014, he joined the Shenzhen University in China as a Post-Doctoral Researcher where he worked on the design and development of metamaterials, plasmonic devices and subwavelength gratings. In 2016, he joined the Nanyang Technological University in Singapore as a Research Fellow where he worked on the design of mid-IR lasers and metasurfaces. In December 2017, he joined the College of Science, Nanjing University of Science and Technology as a Professor. In December 2021, he joined Shenzhen University. Please check my google scholar for the complete publication list: https://scholar.google.com/citations?user=kIvUY0MAAAAJ .