SUSTech offers unprecedented opportunities for undergraduate and graduate students to work alongside the faculty to explore and tackle both fundamental and practical problems. 

The Global Engagement Office (GEO) is responsible for forming and implementing a coherent strategy to promote the University’s international development and global profile.

The undergraduate admission of SUSTech adopts comprehensive evaluation enrollment mode based on national college entrance examination.The graduate admission of SUSTech currently adopts joint training mode.

The main duties of SUSTCEF is to accept the donations from the domestic and foreign associations, enterprises, trading companies and individuals, and establish the funding projects depending on the demands of the university and the wishes of the donors.

Introduction

Home > Academics > Electrical and Electronic Engineering > Introduction

 

 

EEE at SUSTC


   

    Electrical and Electronic Engineering (EEE) is a high technology discipline founded on the basis of microelectronics engineering. It has evolved our daily life in many aspects and will continue to shape our information-based society. The research and teaching at the Department of Electrical and Electronic Engineering presently encompasses the cutting-edge and interdisciplinary technologies including microelectronics, photonics, and communications. Other areas of electrical and electronic engineering under development include IC design, embedded systems, signal processing and control.

    Microelectronics is a discipline based on physical science, electronics, materials science, and computer engineering. It is established on the basis of integrated circuits and micro- and nano-fabrication. Microelectronics is the foundation of the electronic and information science and technology of the 21st century, and is pivotal to the development of modern technology and advanced economy. The microelectronics major at SUSTC mainly focuses on areas such as semiconductor physics, functional electronic materials, solid-state devices, ULSI circuit design, micro-electro-mechanical system (MEMS), and semiconductor manufacturing technology.

    We aim to cultivate students to have not only solid theoretical knowledge in semiconductor materials and devices but also practical skills to design and manufacture the state-of-the-art electronic and optoelectronic devices and systems. Upon graduation, students are expected to write and speak effective English, use computers proficiently, and apply those skills in engaging in interdisciplinary collaborations and innovative R&D activities. Our graduates can work in diverse areas, including the design and manufacture of electronic and optoelectronic devices and integrated circuits and systems, and the research and development of innovative products, technologies and processes. Students can either continue post-graduate education in microelectronics or related fields after graduation, or pursue research, development, education, and management positions at a broad spectrum of enterprises, research institutes, and universities.

    Photonics is a multidisciplinary combination of optics, optoelectronics and microelectronics. The science of photonics includes generation, emission, transmission, detection of light, and conversion, processing, storage and display of photons. Photonics has been a technical enabler for many areas of the economy and has a significant impact on our daily life. The photonics specialization at SUSTC features with “display” and “lighting”, which includes the next generation flat panel display, efficient solid state lighting, photovoltaic, photonic integrated circuits, optical design, semiconductor photonics devices, etc. We aim to nourish students with solid photonics knowledge as well as practical skills and hands-on research experiences. The students are expected to be exposed to the state-of-the-art technologies of display, lighting, photovoltaic and fiber communications. Our graduates can either work in photonics related areas like display, lighting and semiconductor, or continue post-graduate education in photonics or related fields. They are capable of pursuing research, development, education, and management positions at a broad spectrum of enterprises, research institutes, and universities.

    Communication engineering is an important and fundamental branch of electrical and electronic engineering. It is also recognized as one of the most active research areas in information science. Communication engineering focuses on the generation, transmission, exchange and processing of signals. It also contributes to the theoretical and applied research in computer communications, digital communications, satellite communications, optical communications, cellular communications, personal communications, stratospheric communications, multimedia communications, information highway, etc. The communication engineering major at SUSTC focuses on advanced communication technologies, communication systems, and communication networks. Communication engineering is an emerging and promising field in information and communication technology. Particularly, the rapid growth in the areas of mobile communications, optical communications and Internet has provided unprecedented convenience to people in delivering and acquiring information. With such broad prospect for growth, there is a huge demand for professionals, researchers, and engineers in the broad areas of communications engineering.

    As a new department in a brand new university, we are actively recruiting faculty members. We welcome capable and competent candidates in all areas of electrical and electronic engineering to apply.

 

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