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Developmental Directions

As for the focal development point of the department in the future, in the aspect of teaching, in addition to the emphasis on cultivating students to have the standard capacity for
optoelectronic profession, we will also enhance the technique education on optoelectronic theories and practice, and strength students’ cultural literacy and self-learning ability. We promoted cross-department/institute learning programs, to provide students with diversified choices. We will also continue to promote instruction internationalization, and encourage students to participate in international academic exchanges.    

As for the aspect of research development and
cooperative education, by fitting in with industrial needs in the future and teachers’ research specialties, we will establish cross-field research teams, to facilitate the relationship of university-industry interaction, for enhancing the quality and quantity of research results, so as to manifest the research features of the department.

Besides, by continuing our department’s previous long-term development, we will strengthen to establish the following research features, so as to enhance our department’s research competence.  


Ø   Domain of Photoelectric Devices and Materials
To cultivate professional capacity for semiconductor-related industries such as Semiconductor Optoelectronic Devices, Flat Panel Display, Organic Light-Emitting Devices (OLED), and LCD manufacturing process.


Ø   Domain of Electro-Optics Precision Measurement
Our purpose is to mainly emphasize the concept of Opto-Mechatronics ,to combine various kinds of capacities such as Optical System, electronic and computer hardware peripherals, computer software, and optical information processing. Finally, they should be able to apply the capabilities to industries such as semiconductor, Precision Machinery, and Optoelectronics.

Ø   Domain of Optical Information and Optical Communication
Our puspose is to emphasize that students can be familiar with various kinds of photoelectric techniques and signal processing applied to Optical Information and Optical Communication, to make them be able to design chips and digital circuits by means of computer. Meanwhile, they should possess the complete concept of communication system and have profound understanding.  

In order to make students connect with the same industry in the world after they have graduated, on the one hand, out department has undertaken industry-university cooperation with related proprietors; on the other hand, we encourage professional teachers to make their professional techniques synchronize with the industry, so as to carry out and enhance teaching effectiveness, for sharpening teachers’ research level. Besides, we improve the administrative efficiency of department affairs, so as to create a good environment for teachers’ teaching and research, while enhancing the quality of our service for students.


Development features are:

Ø   To reinforce the instruction in electro-optical system and photoelectric components, based on the premise of fitting in with industry needs

Ø   To emphasize practice, applicable planning of practical trainings, and instruction, so as to achieve teaching goal

Ø   To reinforce practical projects, so as to achieve the integrated applications of expertise and technique


Graduate Institute:

In order to fit in with our country for developing focal technology and facilitating industrial advancement as well as social needs, our institute has the education goal based on the educational concept of creative thinking, research and development, to emphasize the integration and applications of the technology of optoelectronics and materials, so as to increase the talent of R&D and design in the technology of optoelectronics and materials in the aspects of science, national defense, and industry in our country.


The developmental focal points and features of research domain planned by our Institute are different from general colleges of engineering in other universities. Our features and goals are based on research topics encompassing theories and practice both. Also, the level of techniques and researches are enhanced, to timely provide the industry with necessary the talent of R&D and design in the technology of optoelectronics and materials.  

Our Institute has the developmental focal points shown as follows:
Group A:
(the domains related to photoelectric devices and materials, monitors, etc.)
Semiconductor optoelectronic devices and materials, flat monitors (LCD and Organic Light Emitting Devices), semiconductor IC process, solar Cell devices and materials, nano materials, biomedical materials, sensing materials, and electro-optical polymer materials.  


Group B: (the domains related to Photonics System)

Nano technique and biomedical optics, design of Opto-Electric Integrated Circuit (OEIC), Advanced Photonics and Physics, materials, simulation, optical design and optic-electronic equipment, Photonic Micromechanical Systems, microwave communication system, optoelectronics, biochemical interaction, and sensing and measurement systems.     

Group C: (the domains related to Microelectronics)
Digital Signal Processing (DSP), Communications System, nano-optoelectronic devices, technique of Solar Cell Devices, Illumination Device System of New-Generation White Light Emitting Diode, Solid-State Electronic Devices, Integrated Circuit Design, integrated circuit manufacturing process, surface acoustic wave devices (SAW devices), electronic ceramic materials, Communication Circuits Design, satellite navigation system design, etc.


Group D: (the domains related to information engineering)
Network communications, IC design and embedded systems, biological information, multimedia system, information security, Software Engineering, etc.

Group E: (the domains related to biological materials or R&D and applications combined with

Applied Microbiology, bio-chemistry, molecular biology, cell biology, genetic engineering, Gene Transfer, biotechnology, Bioinformatics, biological materials, mericlone, Biosensing and Biochip, nano technology, etc.

In order to fit in with the development of national industry and cultivate proper optoelectronic talent, we have drawn up the following plans for future development:

Ø   Depending on the direction of development, continue to engage teachers and reinforce the cast of professional domains

Ø   Strengthen the replenishment of research equipment

Ø   Replenish teacher resources and equipment, and integrate laboratories

Ø   Strengthen corporation plan of industry-university cooperation for the department

Ø   Carry out international cooperation, to enhance our Institute’s teachers’ specialties and academic level
Reinforce the exchanges with district companies