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Department of Applied Chemistry

Development Characteristics
The National University of Kaohsiung (NUK) is located in the Nan-Tzu district of Kaohsiung City, Taiwan.
The Department of Applied Chemistry was established in the year of 2001, only one year after the university was founded. In the fall of 2010, there will be approximately 200 full-time students enrolled in graduate and undergraduate programs. After graduating, students pursue their post-graduate degrees either in Taiwan or overseas, while some students start their chemistry career in the vast opportunities in government, semiconductor, or pharmaceutical companies.
The master’s program was initiated in 2007 with a total of 30 students. Currently there are 11 full-time faculty members with an excellent history of research, industrial project collaborations and teaching excellence. Some of the professors provide lectures in English which enables our students to read current chemistry literature faster with increased comprehension.
A function of the Department of Applied Chemistry is to support the increasing demands of the chemical related workforce of both the Taiwanese government and the local industries. In addition, we aim to establish fruitful collaborations between companies in the Southern Taiwan Science Park (STSP) and the greater Kaohsiung area. Since many of the companies in the STSP are developing electronics, optoelectronics, and biotechnological products, they will require many well trained and well rounded chemists. Our goal is to provide these companies with highly marketable, well trained chemists ready to contribute to their teams.
As the traditional chemical industries (for example: petroleum, metallurgy, and plastics) in the greater Kaohsiung area are increasing their research and development teams, the need for students with advanced degrees in rapidly increasing demand, but the supply is low. With the collaboration of local industries, we have developed our academic curriculum which is focused on training young chemists that can complete independent research and development projects.
Part of this Applied Technologies curriculum includes courses that include but is not limited to electronic, optoelectronic, and biotechnology courses. In addition, the Applied Technologies curriculum offers several intramural courses for the students such as courses offered in green manufacturing and chemistry, bioinorganic chemistry, nanotechnology, semiconductor processing, advanced materials, and material chemistry.

The central dogma of chemistry related academic departments are focused on teaching basic chemistry and carrying our fundamental research projects. In addition, chemical industries in Taiwan have relied on foreign know-how for the production of fine chemicals and high-value added products, often without using the best regional solution. Without the support from academia, industries are facing difficulties remaining competitive. Therefore, the industrial setting will require a synergistic relationship with the academic community that will concentrate on application oriented research projects of today’s world instead of focusing on fundamental research problems.
Therefore, the research topics conducted in our department include
Advanced Material Processing:
Preparation and characterize nanomaterial and semiconductor material, preparation and applications of high efficient battery material, and research on biocatalytic materials.
Material Chemistry:
Developing new analytic procedures for improving the material analysis during the semiconductor manufacturing process (including Chemical Vapor Deposition, Lithography Process).
Research in Chemistry:
  Bioinorganic Chemistry, Theoretical Chemical Dynamics, Organic and Inorganic Synthesis.

Future Outlook
Our University is centrally located in southern Taiwan’s traditional industrial region, and is adjacent to the Tainan Science Park. With this geographical advantage, the Department will play a vital role in producing caring communities and vibrant economies by nurturing future leaders, establishing collaborations between industry and academia, and assisting in the transformation of traditional industries.


Undergraduate Curriculum
The minimum requirement for graduation is 128 credits, including 65 credits in the core courses. The design of the academic program includes not only the basic training in chemistry but also the ability of many elective courses (grouped as intramural courses) such as green and nanotechnology, green chemistry, semiconductor processing, advanced material processing, and material chemistry programs.

Courses Offered 
■ Compulsory Courses:
Freshman   Sophomore   Junior   Senior
► General Chemistry (1)(2)
► General Chemistry Laboratory (1)(2)
► General Physics (1)(2)
► General Physics Laboratory (1)(2)
► Calculus (1)(2)
► Introduction to Computer Science
► Analytical Chemistry
  ► Organic Chemistry (1)(2) 
► Seminar (2)
► Organic Chemistry Laboratory (1)(2)
► Instrumental Analysis I
► Analytical Chemistry Laboratory
► Instrumental Analysis Laboratory
► Introduction to Applied Chemistry
► Physical Chemistry (1)
  ► Inorganic Chemistry (1)(2)
► Physical Chemistry Laboratory (I)
► Physical Chemistry (II)(III)
► Seminar (1)
► Creative Lab in Applied Chemistry
  ► Seminar (2)
Intramural Courses:
green and nanotechnology, green chemistry, semiconductor manufacturing, advanced material processing, and material chemistry programs.
Green and
  Green Chemistry   Semiconductor Manufacturing   Advanced Material Processing
Introduction to Manufacturing Process
Introduction to Green Chemistry
Introduction to Nanotechnology
Nanotechnology and Application
Innovation Management
Project Management
Introduction to Green Chemistry
Environmental Development
Innovation Project
Process Management
Clean Technology
Nanomateiral Preparation
Ionic Liquid
Environmental Chemistry
Biodegradable Materials
Quality Control
General Chemistry
Introduction to Semiconductor
Vacuum Technology
Semiconductor Device
Thin Film Manufacturing Process
Etching Manufacturing Process
Material Analysis
Diffusion Manufacturing Process
Lithography Manufacturing Process
General Chemistry
General Physics
Molecular Device Material
Organic Optoelectronic Material
Inorganic Electric-Optical Material
Energy Storage Material
Environmental and Catalytic
Biomedical Material
Surface Process and Technology
● Minimum 20 credits
● Required 9 credits
● Elective 11 credits
  ● Minimum 20 credits
● Required 9 credits
● Elective 11 credits
  ● Minimum 21 credits
● Required 9 credits
● Elective 12 credits
  ● Minimum 21 credits
● Required 9 credits
● Elective 12 credits

Master Program
The minimum requirement for graduation is 24 credits, including 4 requirement credits and 20 professional elective credits.
  Seminar (1)(2)
  Chemistry: research and technology
Elective Course:
  See the intramural courses of the undergraduate curriculum.