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KRICT - Korea Research Institute of Chemical Technology
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한국화학연구원의 앞으로 나아가야하는 방향과 목표를 제시합니다
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Specialty and Bio-based Chemicals Technology
Introduction of Division
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Technical Support Center for Chemical Industry
Chemical Platform Technology
Introduction of Division
Chemical Data-Driven Research Center
Drug Information Platform Center
Chemical Safety Research Center
Chemical Materials Solutions Center
Chemical Analysis Center
Reliability Assessment Center for Chemical Materials
Center for Low-carbon Chemical Process (LCP)
Introduction of Department
Intellectual Property & Technology Transfer
Key Accomplishments at a Glance
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한국화학연구원의 앞으로 나아가야하는 방향과 목표를 제시합니다
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International Activities
UST SCHOOL
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한국화학연구원의 앞으로 나아가야하는 방향과 목표를 제시합니다
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KRICT 비전
한국화학연구원의 앞으로 나아가야하는 방향과 목표를 제시합니다
ChemHistory
KRICT Highlight
KRICT IS
President’s Greeting
Vision
Mission
History
Organization
Directions
Daejeon HQ
Ulsan Division
Research Area
Chemical Process
Introduction of Division
Green Carbon Research Center
C0₂& Energy Research Center
Hydrogen & C1 Gas Research Center
Low-Carbon Petrochemical Research Center
Chemical Process Solution Research Center
Carbon Neutral Demo-Plant Center
Advanced Materials
Introduction of Division
Thin Film Materials Research Center
Advanced Functional Polymers Research Center
Interface Materials and Chemical Engineering Research Center
Advanced Energy Materials Research Center
Hydrogen Energy Research Center
Therapeutics & Biotechnology
Introduction of Division
Center for Rare Disease Therapeutic Technology
Data Convergence Drug Research Center
Infectious Diseases Therapeutic Research Center
Center for Infectious Disease Vaccine and Diagnosis Innovation (CEVI)
Eco-Friendly New Materials Research Center
Strategy and Policy Center for Infectious Diseases
Specialty and Bio-based Chemicals Technology
Introduction of Division
Center for Specialty Chemicals
Center for Bio-based Chemistry
Technical Support Center for Chemical Industry
Chemical Platform Technology
Introduction of Division
Chemical Data-Driven Research Center
Drug Information Platform Center
Chemical Safety Research Center
Chemical Materials Solutions Center
Chemical Analysis Center
Reliability Assessment Center for Chemical Materials
Center for Low-carbon Chemical Process (LCP)
Introduction of Department
Intellectual Property & Technology Transfer
Key Accomplishments at a Glance
International Cooperation
International Partnerships
International Activities
International Activities
UST SCHOOL
Communication
Annual Report
Brochure
Contact
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Chemical Process
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홈
Research Area
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Research Area
International Cooperation
Communication
Homepage Guide
Chemical Process
Chemical Process
Advanced Materials
Therapeutics & Biotechnology
Specialty and Bio-based Chemicals Technology
Chemical Platform Technology
Center for Low-carbon Chemical Process (LCP)
Intellectual Property & Technology Transfer
Key Accomplishments at a Glance
C0₂& Energy Research Center
Introduction of Division
Green Carbon Research Center
C0₂& Energy Research Center
Hydrogen & C1 Gas Research Center
Low-Carbon Petrochemical Research Center
Chemical Process Solution Research Center
Carbon Neutral Demo-Plant Center
C0₂& Energy Research Center
SNS공유 열림버튼
트위터
페이스북
SNS공유 닫힘버튼
프린트
CO₂ & Energy Research Center
Head
Name
Ji-hoon Park
Office
+82-42-860-7612
Mail
jihpark@krict.re.kr
박지훈 사진
Major research fields
CO2-based convergence technology in response to climate change
CO2 reforming catalyst system using gas- and liquid-phase reducing agents based on non-utilized carbon sources
CO2 conversion platform chemical production technology
Efficient carbon capture/conversion process based on electrification
Electrochemical catalyst process technologies for selective CO2 conversion
Analysis and LCA based environmental assessment on the contribution of CO20-utilizing technology to GHG reduction
High value-added compound production technology based on sustainable resources (including CO2)
CO2-based polymers (polyurethane/polycarbonate/polyester) and high value-added base chemical production technologies
High value-added polymers and base chemical production technology based on sustainable feedstocks (including PLA application technology)
Nano system production and application process technology based on polysaccharides (cellulose, chitin, starch)
CO2 conversion and high-value added chemical production technologies using solar energy
CO2/under-utilized carbon-based high value-added chemical production technology using solar photocatalysts
Photo-bio catalyst convergence technology for direct conversion of CO2 using solar energy
Energy-efficient air pollutant reduction technology for cleaner air
Environmental catalyst source technology to reduce harmful gases (fine dust, odors, etc.)
Low-energy catalytic system to reduce harmful gases
Emission source-specific catalytic reactors and integrated reaction processes
Sustainable energy storage/utilization technology
Hydrogen storage technology based on liquid organic hydrogen storage (LOHC)
CCU-linked hydrogen utilization technology
Chemical reaction-based energy storage/supply systems