Why UST

UST VISION 2025

Why UST 레이어 닫기

PROUDUST

Training USTians with pride by promotinga creative educational environment

UNIQUE

DIFFERENT

PROFESSIONAL

Excellent

Secure world-leading educational competitiveness

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

Entrepreneur

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

Global

Establish global status as a national research university

Improving brand value
Improving cooperation network

Smart

Establish creative knowledge management system

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

UST VISION 2025 Detail UST Operating System Detail

IT

UST, a world-class government funded research institute university that is creating future values with government funded research institutes

Majors

Areas of Specialization

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Advanced Materials and Chemical Engineering

Host School/Campus

tag: #Chemistry; #Convergence; #Material; #Molecular; #Engineering; #Information; #GreenChemistry; #Bio; #Biology

Introduce

Hereafter, it is time to need the innovation in new materials and chemical engineering on a different level from conventional technologies at Industry 4.0. The specialty for Advanced Materials and Chemical Engineering at UST-KRICT consists of two research areas of advanced materials and chemical engineering to pursue cutting-edge technology. Advanced materials is an interdisciplinary specialty area that focuses on potential applications and fundamental properties of functional materials based on chemistry. Our program of teaching and research in this specialty area spans not only the breadth of chemistry including the design, synthesis and characterization but also fundamental physics, process, and simulation of the chemistry convergence materials. More specialized areas such as 1) Molecular engineering for advanced materials, 2) Information & electronics materials, and 3) Green & renewable energy materials are also covered. Chemical engineering is a multidisciplinary research area that can get a clue to solve global environmental issue by using state-of-the-art technology of CCUS (Carbon Capture Storage Utilization) for Green Industry, Greenhouse (CO2) Gas Reduction, and Bio-based Chemistry for Eco-friendly Process based on Environment Technology (ET) and Biotechnology (BT), which are necessary to restore and conserve ecosystems on earth. The program also focuses on cultivating creative research manpower who meets industry’s need via making a connection with job training.

**세부전공**

세부 전공명, 전공내용으로 구분하여 안내합니다.
세부 전공명	전공내용
Chemical Engineering	Chemical engineering (CE) is a multidisciplinary research areas based on chemistry, physics and biology that can get a clue for global sustainability. Especially, our department focus research on Carbon Capture Storage Utilization for Green Industry, Greenhouse (CO2) Gas Reduction, and Bio-based Chemistry for Eco-friendly Process, which are necessary to restore and conserve ecosystems on earth.
Advanced Materials	Advanced materials is an interdisciplinary specialty area that focuses on potential applications and fundamental properties of functional materials based on chemistry. Our program of teaching and research in this specialty area spans not only the breadth of chemistry including the design, synthesis and characterization but also fundamental physics, process, and simulation of the chemistry convergence materials. Cutting-edge interdisciplinary research of our sub-department provide our graduate students with the foundation and creativity needed for leading the innovation of high performance materials in response to challenges in the area of information and electronics, green energy, and biotechnology convergence materials.

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Course Name (Kor/Eng)

흡착공정 및 공정이론 (Advanced Materials and Processing)

Course Details

**Course Details**

캠퍼스, 학위과정, 학점, 이수구분, 강의형태, 강의방법, 주관교수로 구분하여 안내합니다.
Campus	KRICT School
Academic Curriculum	Integrative program	Credts	3
Completion Criteria	Major	Lecture Types	Major
Lecture Methods	Korean course	Supervising Professors

Summary

**Summary**

강의목표, 교재 및 참고문헌, 수업운영방식, 과제물, 성적평가방식으로 구분하여 안내합니다.
Lecture Objectives	본 ‘탄소복합재료 특론’ 강의는 탄소소재 기초에 대한 소개를 시작으로, 탄소섬유, 고품위 기능성 탄소, 활성탄소, 나노탄소 및 복합재료에 대한 제조공정, 산업화기술 등을 이해하고, 탄소소재 연구 동향에 대한 심층 논문분석을 통해 탄소소재에 관한 전문지식을 습득함
Textbooks and References	1. “Advanced Materials Science and Engineering of Carbon” M Inagaki, 2. F. Kang, M. Toyoda, and H. Konno, Tsinghua University Press 3. “Fundamentals of Composites Manufacturing: Materials, Methods, and Applications” A. Brent Strong, 2nd Ed., Society of Manufacturing Engineers, Dearborn, Michigan 4. “Principles of Polymer Processing” Tadmor and Gogos, Wiley Interscience
How a Lecture is Conducted	강의 및 발표
Assignments
Grading and Score Evaluatios	절대평가

Weekkly Syllabus

**Weekkly Syllabus**

Weekkly, 계획으로 구분하여 안내합니다.
1 Week	Carbon Materials : fundamentals, characteristics, and applications
2 Week	Feed refining for high quality carbons (고품위 탄소제조를 위한 원료 정제기술)
3 Week	ynthesis and application of core-shell structured porous carbon (코어/셸구조 다공성탄소 제조 및 응용기
4 Week	Characterization of functional composites (기능성 복합재료 특성평가 기술)
5 Week	Carbon based catalysts (탄소촉매기술)
6 Week	Characteristics of activated Carbon (fiber)
7 Week	Processing of activated carbon (fiber)
8 Week	Surface treatment of activated Carbon (fiber)
9 Week	Composites of activated carbon (fiber)
10 Week	Synthesis and purification of nanocarbons (나노탄소 합성 및 정제)
11 Week	Surface treatment of nanocarbons (나노탄소 표면 처리)
12 Week	Preparation of nanocarbon composites (나노복합재료 제조)
13 Week	Applications of naoncarbon composites (나노복합재료 응용)
14 Week	Reinforcing materials and matrices of composites
15 Week	Properties of carbon composites
16 Week	Carbon Fiber processing, applications, and composites