Training USTians with pride by promotinga creative educational environment

Secure world-leading educational competitiveness

Discovering creative talent and to become real USTians
Establishment of UST21 education system

Become a university with industry-academia-research integration

Strengthening the cooperation between UST-GFRIs-corporations
Strengthen the cooperation between GFRIs
Support business start-ups with GFRI-based technologies

Establish global status as a national research university

Improving brand value
Improving cooperation network

Establish creative knowledge management system

Providing creative educational environment by applying cutting-edge technology
Improving management effectiveness


Electro-functionality materials engineering is a field dealing with materials, devices and modules related to the efficient use of electrical energy. this field seeks device stability, with the aim of developing future green power sources and also the enhancement of the happiness of humankinds. The field involves superconducting material technology, in which superconducting materials, their physical properties, and the fabrication and application of next-generation high temperature superconducting coated conductors, are studied. Nanotechnology based electrical materials and parts technologies can make electrical machinery thinner, more highly efficient, more highly dense and cheaper, and can make electrical and electronic devices environmentally-friendly and multi-functional. Environmentally-friendly and green energy source technologies related to lithium batteries, lithium ion capacitors, metal-air batteries, printed batteries, organic solar cells, and nano-embedded thermoelectric materials and modules for high-efficiency energy conversion and storage, and nanotechnology and electricity based bio-medical technologies that can be applied to nano membranes and nano structures for bio-medical fields are also subjects of interest. The present major aims to cultivate experts in the above mentioned fields, people who will play leadership roles in implementing the low-carbon green growth policy of the Korean government by developing high value products and bringing them to the public.


Course Name (Kor/Eng)

2차원나노소재기초 및 응용 (Fundamental and Application of 2 Dimensional Nanomaterials)

Course Details

Course Details
캠퍼스, 학위과정, 학점, 이수구분, 강의형태, 강의방법, 주관교수로 구분하여 안내합니다.
Campus Korea Electrotechnology Research Institute
Academic Curriculum Integrative program Credts 3
Completion Criteria Major Lecture Types Major
Lecture Methods Korean course Supervising Professors


강의목표, 교재 및 참고문헌, 수업운영방식, 과제물, 성적평가방식으로 구분하여 안내합니다.
Lecture Objectives 2차원 나노소재인 그래핀, MoS2, WS2의 구조를 이해하고, 전기전자 및 에너지 저장소자 응용에 대한 지식을 습득한다.
Textbooks and References
How a Lecture is Conducted
Grading and Score Evaluatios

Weekkly Syllabus

Weekkly Syllabus
Weekkly, 계획으로 구분하여 안내합니다.
1 Week 2차원 나노소재의 종류 및 특성 이해
2 Week 그래핀소재 기초 및 전자구조 이해-1
3 Week 그래핀소재 기초 및 전자구조 이해-2
4 Week 그래핀 합성방법
5 Week 그래핀 특성평가방법
6 Week 그래핀 응용
7 Week MoS2소재 기초 및 전자구조 이해-1
8 Week MoS2소재 기초 및 전자구조 이해-2
9 Week MoS2 합성방법
10 Week MoS2 특성평가방법
11 Week MoS2응용
12 Week WS2소재 기초 및 전자구조 이해
13 Week WS2합성 및 평가방법
14 Week 2차원 나노소재기반 하이브리드 소자응용-1
15 Week 2차원 나노소재 하이브리드기반 소자응용-2
16 Week 기말평가