Contact Information

What is Advanced Materials Engineering for Information & Electronics?

Advanced Materials Engineering for Information & Electronics is an interdisciplinary field involving the properties of matter and its applications for next-generation leading technology related to information displays, electronics/semiconductors, and energy materials. This field investigates the relationship between the structure of materials at atomic or molecular scales and their macroscopic properties for final applications based on applied physics and chemistry.

Advanced Materials Engineering for Information & Electronics at Kyung Hee University

- Department of advanced materials engineering for information and electronics aims to academically deal with organic and inorganic advanced materials related to information and electronics. Especially, we are cultivating interdisciplinary experts in the advanced materials field via a specialized curriculum focused on new technology trends. Our curriculum is focusing on graduate’s competitiveness by dealing with courses ranging from the basic science (Physics/Chemistry/Polymer/Metal/Ceramics) to industrial applications (Displays/Semiconductors/Energy storage devices/Electronic devices) in the field of materials for information and electronics.
- Cultivating engineering experts having both practical knowledge and application technology by educating information displays, electronics/semiconductors, and energy materials based on fundamental science.

Degree Requirements

1) complete a minimum of 136 credit units
2) satisfy the general requirements of the program for a professional degree
3) complete 12 credit units of required courses
4) complete 49 credit units including 12 credit units of required courses and 37 credit units of elective core courses
5) A minimum of English proficiency test score of TOEIC 650

What Do You Study?

Introduction to Engineering Computer Programming, Calculus I, Calculus II, Chemistry and Lab. I, Chemistry and Lab. II, Physics and Lab I., Physics and Lab II

Engineering Mathematics I, Engineering Mathematics II, Physical Chemistry, Organic Chemistry, Applied Physics, Digital Circuit and Experiment, Polymer Materials, Ceramic Materials, Quantum Physics for Materials.

Polymer Chemistry, Electromagnetic, Thermodynamics of Materials, Applied Optics, Instrumental Analysis of Materials, Inorganic Chemistry, Physical Properties of Materials, Semiconductors Materials and Physics, Information and Electronic Materials Experiment, Crystallography, Polymer Physics, Materials for Information Storage and Lab., Organic Electronic Materials, Display materials, Thin film technology

Spectroscopic analysis of materials, Display circuit operation, Semiconductor manufacturing process and technology, Polymer engineering, Energy Materials, Experiment of Organic Materials, Optoelectronics materials, Materials for Information Storage, Hybrid Materials, Special Topics, Crystal Materials, Internship 1 in Advanced Materials Engineering for Information & Electronics, Internship 2 in Advanced Materials Engineering for Information & Electronics, Internship 3 in Advanced Materials Engineering for Information & Electronics, Internship in Research 1,2.

Future careers

- Key role in the fields related to information technology (IT), nano-technology (NT) and energy-technology (ET), cores of our country’s next-generation leading technology.
- Experts in display/semiconductor/energy corporate, national research institutes, advanced materials industries, etc.
- Future careers will be continuously expanded as a fusion technology among IT, NT, and ET.