이재경 Jaekyoung Lee
부경대학교 화학공학과 조교수
Assistant Professor
Department of Chemical Engineering
Pukyong National University
E-mail : leejk46@pknu.ac.kr
Office : 부경대학교 대연캠퍼스 공학1관 1215호
051-629-6433
Education
2014.03 – 2019.08 Ph.D., Chemical Engineering, UNIST (Advisor: Prof. Ja Hun Kwak)
2010.03 – 2014.02 B.S., Nano-bioscience & Chemical Engineering, UNIST
Experiences
2021.09 – Current Assistant Professor, Department of Chemical Engineering, Pukyong National University
2020.03 – 2021.08 Post Doc, Chemical Engineering and Applied Chemistry, University of Toronto
(Advisor: Prof. Ya Huei (Cathy) Chin)
2019.09 – 2020.02 Post Doc, Chemical Engineering, UNIST (Advisor: Prof. Ja Hun Kwak)
Selected Publications
1. J. Lee, E.J. Jang, D.G. Oh, J. Szanyi, and J.H. Kwak*
“Morphology and size of Pt on Al2O3: the role of specific interactions between Pt and Al2O3”
J. Catal, 2020, 385, 204-212.
2. J. Lee‡, M.Y. Kim‡, J.H. Jeon, D.H. Lee, K.N. Rao, D.G. Oh, E.J. Jang, E. Kim, S.C. Na, H.S. Han*, J.H. Kwak* (‡ equal contribution)
“Effect of Pt pre-sintering on the durability of PtPd/Al2O3 catalysts for CH4 oxidation”
Appl. Catal., B, 2020, 260, 118098.
3. J. Lee, E.J. Jang, and J.H. Kwak*
“Acid-base properties of Al2O3: Effects of morphology, crystalline phase, and additives”
J. Catal. 2017, 345, 135-148.
4. J. Lee, E.J. Jang, H.Y. Jeong, and J.H. Kwak*
“Effect of number and properties of specific sites on alumina surfaces for Pt-Al2O3 catalysts”
Appl. Catal., A 2019, 569, 8-19.
5. J. Lee, E.J. Jang, H.Y. Jeong, and J.H. Kwak*
“Critical role of (100) facets on γ-Al2O3 for ethanol dehydration: Combined efforts of morphology-controlled synthesis and TEM study”
Appl. Catal., A 2018, 556, 121-128.
6. Y. Yang‡, J. Lee‡, R. Dorakhan, H. Nie, G. Fu, A. Quarantotto, J. Y. Howe, Y-H (Cathy) Chin* (‡ equal contribution)
"Structure and methane oxidation reactivity of bimetallic Pd and Pt nanoparticles”
Appl. Catal., A, 2021, in press
7. E.J. Jang, J. Lee, D.G. Oh, J.H. Kwak*,
"CH4 Oxidation Activity in Pd and Pt–Pd Bimetallic Catalysts: Correlation with Surface PdOx Quantified from the DRIFTS Study"