대학원

Advanced inorganic materials science & technology (무기재료공학특론)

The course examines electrical, optical, and mechanical properties of semiconducting materials (especially silicon), and plasma processing for etching and deposition of the semiconductors. Knowledge on basic chemical engineering courses such as physical chemistry, thermodynamics, reaction engineering, transport phenomena is strongly required because various processes for etching and deposition of thin films will be covered in chemical engineer’s point of view.

학부

Physical chemistry (물리화학)

화학공정의 해석에 도움이 되도록 여러가지 화학현상을 평형과 변화의 측면에서 다룬다.
평형에서의 화학현상을 다루기 위하여 열역학을 이해하고 이로부터 화학물질의 특성과
물질의 상변화, 화학반응의 평형조건과 상태를 강의한다. 변화 혹은 동적 인 화학현상을
다루기 위하여 반응속도론, 촉매, 흡착현상에 대하여 강의한다. 전기화학의 기본개념에
대해서도 강의한다.

Reaction engineering 2 (반응공학2)

This course is a consecutive course of Reaction Engineering I, and investigates various problems in real reaction systems. In order to analyze the behavior of products in real reactors, this course covers the following.

- Understanding and analysis of catalytic reaction systems
- Design and analysis of catalytic reactors
- Residence time distributions
- Analysis of non-ideal reactors

Process engineering in microelectronics fabrication (반도체제조공정)

This course provides an introduction to semiconductor fabrication technology, from crystal growth to integrated devices and circuits, and basic konwledge on semiconductor devices as well. It covers theoretical and practical aspects of all major steps in the fabrication sequence.