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Welcome to the Prof. Joo's research group. 

건국대학교 첨단촉매 및 반응공학 연구실에 오신것을 환영합니다. 

• 본 연구실은 기후변화대응 및 탄소중립 시대 대응 촉매 및 반응공정 연구를 수행하고 있습니다.
  특히 신개념 촉매 설계, 촉매특성/반응성능 최적화 및 에너지/환경 분야 응용 연구를 수행하고 있습니다. 

• 연구실  연구 분야
      - 수소생산 (블루수소, 청록수소, 그린수소 생산)
      - 온실가스 저감 및 전환 (CCUS)  기술
      - 미세먼지 (NOx, SOx)  제거기술
      - 석유화학/정유공정 촉매반응 (FCC, Cracking, CLC 등)
            

• 관심있으신 학부생 (학부 연구생) 및 대학원 진학(석사과정, 박사과정)을 계획하시는 학생분들(타과생, 타학교생도 가능)은 아래의 연락처로 메일 주시기 바랍니다. 

E-mail: jbjoo@konkuk.ac.kr , cyberjb80@gmail.com

서울특별시, 광진구 능동로 120, 건국대학교 공과대학 화학공학과

Lab : 공학관 (21번 건물) B동 171 호 / Office : 공학관 A동 1208 호 

• 다양하고 재미있는 연구 경험 및 국내/국제 공동연구, 각종 국내외 학회 참석등의 기회를 제공해 드립니다

• 우리 연구실은 다양한 정부 연구과제 및 기업과제로 부터 지원을 받아 연구를 수행하고 있습니다.  

Welcome to the homepage of Ji Bong Joo's research laboratory in the Department of Chemical Engineering at Konkuk University. The Advanced Catalysis and Reaction Engineering Lab (ACREL@KU) was established in Spring, 2016  to lead the way in Catalysis & Reaction Engineering which is one of the most important fields in chemical engineering. 

We are interested in the synthesis, characterization, catalysis and reaction engineering of classic catalysts and  novel catalytic materials. We also focus on challenges in catalysts and catalytic processes. 

We use various chemical approaches to synthesize catalytic materials and catalysts.  We can tune the chemical and physical properties of catalysts to control catalytic performances such as conversion, selectivity, stability etc. in practical catalytic applications. We also study the chemistry of surface reaction, catalysis mechanism and fundamental phenomena of materials aspect. In addition, we evaluate activity and performance of catalyst and catalytic process. In order to improve performance of many catalytic processes, we are carrying out  valuable works in Engineering aspect. 

Our Research topics include:

• Synthesis and Application of Nano-catalysts (Nanostructured Catalysts, Nanoreactor, etc.)

• Heterogeneous Catalysis (Fuel Processing, Hydrocarbon Conversion, Petrochemical Processes, etc.)

• Novel Catalysts for Solar Energy Conversion (Photocatalysis, Artificial Photosynthesis and Water Splitting,  etc.)

• Chemical Conversions of Biomass and Waste 

• Chemical Processes for Greenhouse Gas Treatment (CO2, non-CO2)

• Electro-chemical Reaction and Catalysis (Fuel cells, Electro-chemical oxidation/reduction, etc.)