Introduction to Discipline of Electronic Science and Technology

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The "Electronic Science and Technology" primary discipline of Fuzhou University possesses the primary discipline doctoral program and five secondary discipline doctoral and master programs, including "physical electronics", "microelectronics and solid-state electronics", "circuit and system", "optoelectronic information technology" and "intelligent information technology", and a professional degree engineering master program "integrated circuit engineering". The discipline is supported by several projects, including the national "211" project key disciplines, the key discipline of electronic science and technology in Fujian province, Haixi new-type display devices and systems integration synergy innovation center, information display and information processing advanced discipline innovation platform of Fujian province, Fujian electronic science and technology graduate student education innovation base, and so on. The academic leaders are the Changjiang scholar Prof. Shibiao Zheng and the national 863 expert Prof. Tailiang Guo.

2. Discipline orientations and goals

The discipline closely follows the national medium and long-term science and technology development plan, national medium and long-term talent development plan outline, overall plan of social and economic development of Fujian province. It meets the major requirement of Fujian leading industries, strategic emerging industries, cooperation between Fujian and Taiwan. The discipline concentrates on the improvement of innovation capability supported by the talents, disciplines and scientific research. It plans to gather and cultivate a group of top creative talents, overcome technology bottleneck in the field of photoelectric information, integrated circuit etc., and achieve significant technology breakthrough, for promoting transformation and upgrade of traditional industries and driving the development of emerging industries. Meanwhile, it will build Haixi science and technology cooperation and talent exchange platforms to effectively propel the docking and interaction of the optoelectronics and microelectronics industries of Fujian and Taiwan and make this discipline become a high-level talent training base and one of the innovation leaders in the fields of photoelectric information and IC industries.

3. Advantages and features

(1) Undertake national significant science and technology projects and improve innovation capability

In recent years, this discipline undertakes 5 major projects of national "863" innovative display, 11 NSF general projects, 6 major cooperation projects with industry backbone enterprises; A series of important achievements have been made, including 243 papers indexed by SCI or EI, 5 pieces of PCT authorized invention patents, 101 domestic authorized invention patent. The scientific and technological innovation capability keeps rising trend.

(2) Introduce the PMBOK system to create a novel collaborative innovation organization mode.

The PMBOK system is introduced to improve the discipline operation and management efficiency, and The dynamic PI (Principal Investigator) is combined with matrix discipline team to build cooperative organization mode in favour of continuous innovation. At the same time, the PMO (Project Management Office) central hub function is strengthened, and the discipline construction and the maturity of sustainable development are gradually promoted. Some core members of the discipline construction team have obtained PMP (Project Management Professional) certification qualification.

(3) Be oriented to the whole industry chain and construct technology innovation platforms and systems

This discipline has gradually constructed integrated platforms and systems covering knowledge innovation, technology innovation, and achievement transformation. It possesses more than 7000 m2 of scientific research and experiment site including 1000 m2 of purification laboratory. More than six million Yuan construction fund has been invested. The discipline has been equipped with advanced test instruments and equipment hardware environment of international level, and the international mainstream software design and development environment for the common key technologies of photoelectric materials, photoelectric device, information processing and system integration, and so on. It can meet the needs of photoelectric information related industries and enterprises to carry out public technical services.

(4) Employ the unique "five relationships" advantage to promote the cooperation and communication between Fujian and Taiwan.

Fujian and Taiwan have the advantage of the "five relationships". Moreover, Taiwan photoelectric information and integrated circuit industries are actively transferring to mainland China to seek a bigger development space. To seize the important opportunity, this discipline takes the initiative to construct cooperation and communication platforms between Fujian and Taiwan. It has carried out cooperation with national Taiwan university, Taiwan Jiaotong University, National Cheng Kung University, National Taiwan University of Science and Technology, Taiwan's industrial institute, UMC, Taiwan Chunghwa picture tubes. The cooperation includes annual strait joint fund project cooperation, Joint dotoral and master training programs, sending young backbone teachers to Taiwan for further education, holding academic conferences and seminars.

(5) Integrate talent cultivation and Enterprise-University-Research Institute Cooperation

Graduated education bases are established in domestic large backbone enterprises such as TCL group, Tianma group, TPV group enterprise and 10 to 15 peoples are sent to the base every year after completion of the school curriculum. Based on the cooperated projects of the university discipline tutors and enterprises, the discipline actively merges into the enterprise innovation system. In this way, joint technology research and application development are carried out, and high-level innovation talents for enterprises are also fostered. In the equivalent evaluation of graduation requirements for the postgraduate students, the project outcome is emphasized instead of the paper publication.

4. Talents training targets

To meet the important needs of the national economic and social development and the development of Haixi photoelectric information and IC industries, the discipline employs the innovation talents education mode by merging the teaching into research; supports high quality talents education with high level scientific research through approaches of interdisciplinary integration and the Enterprise-University-Research Institute cooperation; foster compound talents with international notions, strong innovation and engineering capability, responsibility, and spirit of teamwork, in the fields of quantum information and quantum optics, information display, optoelectronic devices and systems, integrated circuits and so on.

5. Discipline direction setting

(1) Quantum information and quantum optics: it mainly carries out teaching and scientific research in the fields of cavity QED and ion trap based quantum information processing and quantum state control subjects and so on.

(2) Information display technology: it mainly carries out teaching and scientific research in the fields of the new photoelectric materials, printing, electronic and display technologies, VR and AR display technology, the field emission display (FED) and so on.

(3) Device circuits and systems: it mainly carries out teaching and scientific research in the fields of the new type of solar cells, memorizer, integrated circuit and system and so on.

(4) Micro-nano photoelectric material: it mainly carries out teaching and scientific research in the fields of the micro-nano photoelectric material, micro-nano photoelectric devices and microfabrication technology and so on.

6. The dosmestic and international impact

(1) The quantum information and quantum optics direction is at the international advanced level in the directions of cavity QED theory based quantum information processing and manipulation of quantum states. Three schemes have been experimentaly validated by the team of 2012 Nobel physics prize winner Haroche.

(2) The direction of information display technology successfully develops 34 inches FED displays and FED back light which is the world's third-largest FED prototype and the third FED on international technical route, and drives the FED's included in the national medium and long-term science and technology development plan.

(3) The device and system direction solves the multiple input multiple output (MIMO) zero structure matrix decomposition problem of singular linear systems, designs and tapes out 5 chips, the performance of which reaches domestic advanced level.

(4) Direction of micro-nano optical materials discovers a semiconductor quantum dot effect charge transport properties of CNT for the first time, and reaches the domestic advanced level in terms of material preparation characterization of ultraviolet stimulated emission of radiation.

(5) The national information display development special plan work are undertaken, mainly including: the tenth and eleventh five-year plan national 863 program display technology development plan, implementation plan and guidance, national new display technology development "twelfth five-year" special plan, implementation plan and guide.