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†: Equal contribution, *: Corresponding author
[34] Catalytic NH₃/H₂ co-combustion: A strategy for efficient and clean NH₃ combustion [Link]
J. Yun,† J.H. Cho,† M. Kim, B.-S. Kim, H.W. Park,* J.C. Jung*
Applied Catalysis A: General, 708, 120567 (2025).
[33] Hydrogen production in ammonia decomposition over direct reduced iron catalyst obtained from ironmaking process [Link]
J.M. Park, T.O. Son, S. Joo, G. Kwon, B.-S. Kim, H.W. Park, D.H. Kim*
International Journal of Hydrogen Energy, 120, 101–109 (2025).
[32] Advancements and challenges in catalytic hydrothermal liquefaction of lignocellulosic biomass: A comprehensive review [Link]
T.-H. Le,† S. Wang,† B.-S. Kim, H. Nam, D. Lee*
Chemical Engineering Journal, 498, 155559 (2024).
[31] Catalytic removal of harmful volatile organic compounds by reutilizing zinc rods waste from spent batteries as a palladium catalyst support [Link]
S.C. Kim, B.-S. Kim*
Environmental Pollution, 338, 122678 (2023).
[30] Performance of manganese-based catalyst comprising zinc oxide obtained from spent dry batteries for hydrocarbon oxidation [Link]
B.-S. Kim, M.K. Kim, S.C. Kim*
Chemical Engineering Journal, 475, 146003 (2023).
[29] Catalytic ammonia decomposition to produce hydrogen: A mini-review [Link]
J.E. Lee,† J. Lee,† H. Jeong, Y.-K. Park,* B.-S. Kim*
Chemical Engineering Journal, 475, 146108 (2023).
[28] Characteristics of deactivation and thermal regeneration of Nb-doped V₂O₅–WO₃/TiO₂ catalyst for NH₃–SCR reaction [Link]
Y.-J. Jung, J.-S. Cha,* B.-S. Kim*
Environmental Research, 227, 115744 (2023).
[27] Catalytic ozonation of methylethylketone over porous Mn–Cu/HZSM-5 [Link]
M.-J. Ha,† J.E. Lee,† Y. Park, J.S. Cha, Y.-M. Kim,* B.-S. Kim*
Environmental Research, 227, 115706 (2023).
[26] In-situ desulfurization using porous Ca-based materials for the oxy-CFB process: A computational study [Link]
E.S. Go,† B.-S. Kim,† J.L.J. Ling, S.S. Oh, H.J. Park, S.H. Lee*
Environmental Research, 225, 115582 (2023).
[25] Thermal regeneration characteristics of titanium isopropoxide-modified TiO₂ for the removal of environmentally hazardous NOₓ in iron ore sintering process [Link]
Y.-j. Jung, B.-S. Kim, B. Jeong, H.-D. Kim, J.M. Won, K. Cha, J.-S. Cha*
Korean Journal of Chemical Engineering, 40, 714–721 (2023).
[24] Catalytic removal of nitrogen oxides (NO, NO₂, N₂O) from ammonia-fueled combustion exhaust: A review of applicable technologies [Link]
Y.-K. Park, B.-S. Kim*
Chemical Engineering Journal, 461, 141958 (2023).
[23] The use of black mass in spent primary battery as an oxidative catalyst for removal of volatile organic compounds [Link]
B.-S. Kim, S.-C. Jung, H.-Y. Jung, M.A. Khan, B.-H. Jeon, S.C. Kim*
Journal of Industrial and Engineering Chemistry, 114, 323–330 (2022).
[22] Ozone-assisted oxidation of methyl ethyl ketone over mesoporous MnOₓ/γ-Al₂O₃ catalysts [Link]
B.-S. Kim,† Y. Park,† K.H.P. Reddy,† Y.-K. Park*
Materials Letters, 299, 130105 (2021).
[21] Surface Restructuring of Supported Nano-Ceria for Improving Sulfur Resistance [Link]
B.-S. Kim, J. Bae, H. Jeong, C. Choe, H. Lee*
ACS Catalysis, 11, 7154–7159 (2021).
[20] Effective toluene oxidation under ozone over mesoporous MnOₓ/γ-Al₂O₃ catalyst prepared by solvent deficient method: Effect of Mn precursors on catalytic activity [Link]
K.H.P. Reddy,† B.-S. Kim,† S.S. Lam, S.-C. Jung, J. Song, Y.-K. Park*
Environmental Research, 195, 110876 (2021).
[19] Controlling Oxidation State of Pt Single-Atoms for Maximizing Catalytic Activity [Link]
H. Jeong, D. Shin, B.-S. Kim, J. Bae, S. Shin, C. Choe, J.W. Han*, H. Lee*
Angewandte Chemie-International Edition, 59, 20691–20696 (2020).
[18] Seemingly Negligible Amounts of Platinum Nanoparticles Mislead Electrochemical Oxygen Reduction Reaction Pathway on Platinum Single-Atom Catalysts [Link]
S. Shin, H.-E. Kim, B.-S. Kim, S.S. Jeon, H. Jeong, H. Lee*
ChemElectroChem, 7, 3716–3719 (2020).
[17] Lean NOₓ trap catalysts with high low-temperature activity and hydrothermal stability [Link]
B.-S. Kim, H. Jeong, J. Bae, P.S. Kim, C.H. Kim, H. Lee*
Applied Catalysis B: Environmental, 270, 118871 (2020).
[16] Highly durable metal ensemble catalysts with full dispersion for automotive applications beyond single-atom catalysts [Link]
H. Jeong, O. Kwon, B.-S. Kim, J. Bae, S. Shin, H.-E. Kim, J. Kim, H. Lee*
Nature Catalysis, 3, 368–375 (2020).
[15] Highly Water-Resistant La-Doped Co₃O₄ Catalyst for CO Oxidation [Link]
J. Bae, D. Shin, H. Jeong, B.-S. Kim, J.W. Han, H. Lee*
ACS Catalysis, 9, 10093–10100 (2019).
[14] Au-doped PtCo/C catalyst preventing Co leaching for proton exchange membrane fuel cells [Link]
J. Choi, J. Cho, C.-W. Roh, B.-S. Kim, M.S. Choi, H. Jeong, H.C. Ham*, H. Lee*
Applied Catalysis B: Environmental, 247, 142–149 (2019).
[13] Mn-doped CuO-Co₃O₄-CeO₂ catalyst with enhanced activity and durability for hydrocarbon oxidation [Link]
J. Bae, B.-S.Kim, H. Jeong, H. Lee*
Molecular Catalysis, 467, 9–15 (2019).
[12] Synergistic Effect of Cu/CeO₂ and Pt–BaO/CeO₂ Catalysts for a Low-Temperature Lean NOₓ Trap [Link]
B.-S. Kim, P.S. Kim, J. Bae, H. Jeong, C.H. Kim, H. Lee*
Environmental Science & Technology, 53, 2900–2907 (2019).
[11] Fully Dispersed Rh Ensemble Catalyst To Enhance Low-Temperature Activity [Link]
H. Jeong, G. Lee, B.-S. Kim, J. Bae, J.W. Han, H. Lee*
Journal of the American Chemical Society, 140, 9558–9565 (2018).
[10] Catalytic Pyrolysis of Municipal Plastic Film Wastes Over Nanoporous Al-MCM-41 [Link]
S.C. Kim, B.S. Kang, B.-S. Kim, Y.-M. Kim, J.-K. Jeon, Y.-K. Park*
Journal of Nanoscience and Nanotechnology, 18, 1078–1082 (2018).
[9] In-situ catalytic pyrolysis of lignin in a bench-scale fixed bed pyrolyzer [Link]
H. Shafaghat,† P.S. Rezaei,† D. Ro,† J. Jae, B.-S. Kim, S.-C. Jung, B.H. Sung, Y.-K. Park*
Journal of Industrial and Engineering Chemistry, 54, 447–453 (2017).
[8] Catalytic co-pyrolysis of torrefied yellow poplar and high-density polyethylene using microporous HZSM-5 and mesoporous Al-MCM-41 catalysts [Link]
Y.-M. Kim,† J. Jae,† B.-S. Kim, Y. Hong, S.-C. Jung, Y.-K. Park*
Energy Conversion and Management, 149, 966–973 (2017).
[7] In-situ catalytic copyrolysis of cellulose and polypropylene over desilicated ZSM-5 [Link]
Y. Hong,† Y. Lee,† P.S. Rezaei,† B.-S. Kim, J.-K. Jeon, J. Jae, S.-C. Jung, S.C. Kim, Y.-K. Park*
Catalysis Today, 293, 151–158 (2017).
[6] Ex-situ Catalytic Pyrolysis of Korean Native Oak Tree over Microporous Zeolites [Link]
Y.-M. Kim, B.-S. Kim, K.-S. Chae, T.S. Jo, S. Kim, Y.-K. Park*
Applied Chemistry for Engineering, 27, 407–414 (2016).
[5] Ex situ catalytic upgrading of lignocellulosic biomass components over vanadium contained H-MCM-41 catalysts [Link]
B.-S. Kim,† C.S. Jeong,† J.M. Kim, S.B. Park, S.H. Park, J.-K. Jeon, S.-C. Jung, S.C. Kim, Y.-K. Park*
Catalysis Today, 265, 184–191 (2016).
[4] Catalytic Copyrolysis of Cellulose and Thermoplastics over HZSM-5 and HY [Link]
B.-S. Kim, Y.-M. Kim, H.W. Lee, J. Jae, D.H. Kim, S.-C. Jung, C. Watanabe, Y.-K. Park*
ACS Sustainable Chemistry & Engineering, 4, 1354–1363 (2016).
[3] Removal of Cu²⁺ by biochars derived from green macroalgae [Link]
B.-S. Kim, H.W. Lee, S.H. Park, K. Baek, J.-K. Jeon, H.J. Cho, S.-C. Jung, S.C. Kim, Y.-K. Park
Environmental Science and Pollution Research, 23, 985–994 (2016).
[2] Pyrolysis and catalytic upgrading of Citrus unshiu peel [Link]
B.-S. Kim,† Y.-M Kim,† J. Jae, C. Watanabe, S. Kim, S.-C. Jung, S.C. Kim, Y.-K. Park*
Bioresource Technology, 194, 312–329 (2015).
[1] Catalytic Rapid Pyrolysis of Quercus variabilis over Nanoporous Catalysts [Link]
H.K. Kang, I.-G. Lee, K.-H. Lee, B.-S. Kim, T.S. Jo, K.-S. Chea, S.H. Park, S.-C. Jung, Y.-K. Park*
Journal of Nanomaterials, 2015, 251974 (2015).
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