Water Electrolysis Lab KENTECH
Department of Energy Technology/Hydrgen Energy, Korea Institute of Energy Technology
Department of Energy Technology/Hydrgen Energy, Korea Institute of Energy Technology
1.S.-G. Baek, G.-H. Lee, H.-R Kim, S.-J. Im, C.-H. Kim*, J.-H. Joo*, "Novel approach to enhancing layered double hydroxide catalyst performance and stability through substrate structure control", Chemical Engineering Journal, (2024) 496, 154295 (SCI)
2.A. M. Tamboli, Y.H. Jung, J.S. Sim, B.H. Kim, W.S. Kim, M.J. Kim, C.S. Lee, K.W. Kim, C.H. Lim, K.H. Kim, H.-S. Cho*, C.-H. Kim*, "Boosting oxygen evolution reaction activity with Mo incorporated NiFe-LDH electrocatalyst for efficient water electrolysis", Chemosphere, (2023 ) 344, 140314 (SCI)
3.M. Mehdi, B.-S. An, H.-S. Kim, S.-C. Lee, C.S. Lee, M.-M. Seo, M.-W. Noh, ; W.-C. Cho, C.-H. Kim, C.-H. Choi, B.-H. Kim*, M.-J. Kim*, H.-S. Cho*, "Rational Design of a Stable Fe‐rich Ni‐Fe Layered Double Hydroxide for the Industrially Relevant Dynamic Operation of Alkaline Water Electrolyzers" Advanced Energy Materials, (2023) 2204403 (SCI)
4.J.-H. Park, K.-H. Ryu, C.-H Kim, W-C. Cho, M.-J. Kim, J.-H. Lee, H.-S. Cho*, J. H Lee*, "Green hydrogen to tackle the power curtailment: Meteorological data-based capacity factor and techno-economic analysis" Applied Energy, 340, (2023) 121016 (SCI)
5.C.-S. Lee, K.-H. Shin, Y.-T. Park, Y.-H. Yun, G.-S. Doo, G.-H. Jung, M.-J. Kim, W.-C. Cho, C.-H. Kim, H.-M. Lee, H.-Y. Kim*, S. Lee*, G. Henkelman*, H.-S. Cho*, "Catalyst‐Support Interactions in Zr2ON2‐Supported IrOx Electrocatalysts to Break the Trade‐Off Relationship Between the Activity and Stability in the Acidic Oxygen Evolution Reaction" Advanced Functional Materials, (2023) 2301557 (SCI)
6.B. Brigljević, M.-H. Byun, H.-J Lee, A.-Y. Kim, B.-R. Lee, C.-H. Moon, J.H. Choi, H.-C. Yoon, C. W. Yoon, Y.-S. Ok*, D.-H. Lim*, C.-H. Kim*, S. B. Moon*, and H. K. Lim*, "When Bigger Is Not Greener: Ensuring the Sustainability of Power-to-Gas Hydrogen on a National Scale" Environmental Science & Technology, 56, (2022) 56 (18) 12828-12837 (SCI)
7.J.S. Lopata, S.-G. Kang, H.-S. Cho, C.-H. Kim, S. Shimpalee, "Impacts of Manifold Geometry and Flow Configuration on Shunt Current, Current Distributions, and Crossover in an Alkaline Electrolysis Stack" Electrochemical Society Meeting Abstracts 241, 38, (2022) 1696-1696, The Electrochemical Society, Inc.
8.Y.-T. Park, K.-H. Shin, C.-S. Lee, S.-Y. Lee, Y.-K. Lee, C.-H. Kim, H.-S. Cho*, G. Henkelman*, H.-M. Lee*, "Iterative redox activation promotes interfacial synergy in an Ag/CuxO catalyst for oxygen reduction" Chemical Engineering Journal, 446, (2022) 136966 (SCI)
9.M.-G. Kim, J.-H. Park, M. Wang, Q. Wang, M. –J. Kim, J. –Y. Kim, H.-S. Cho, C.-H. Kim, Z. Feng, B-H. Kim*, S.-W. Lee*, “Role of surface steps in activation of surface oxygen sites on Ir nanocrystals for oxygen evolution reaction in acidic media” Applied Catalysis B: Environmental, 302, (2022) 120834 (SCI).
10.J.-W. Lee, J.-H. Lee, C.-S. Lee, H.-S. Cho, M.-J. Kim, S.-K. Kim, J.-H. Joo*, W.-C. Cho*, C.-H. Kim, “Cellulose nanocrystals-blended zirconia/polysulfone composite separator for alkaline electrolyzer at low electrolyte contents” Chemical Engineering Journal, 428, (2022) 131149 (SCI).
11.Tamboli, A. M., Tamboli, M. S., Shinde, S. K., Byeon, J., Truong, N. T. N., Kim, C., & Park, C*. “Uniform and fully decorated novel Li-doped α-Fe2O3 nanoparticles for high performance supercapacitors” Journal of Alloys and Compounds, 928, 167242 (SCI).
12.D.-J. Lim, B.-R. Lee, H.-J. Lee, M.-H. Byun, H.-S. Cho, W.-C. Cho, C.-H. Kim*, B. Brigljevic*, and H.-K. Lim*, “Impact of voltage degradation in water electrolyzers on sustainability of synthetic natural gas production: Energy, economic, and environmental analysis” Energy Conversion and Management, 245 (2021) 114516 (SCI).
13.T. L. Doan, H.-E. Lee, S. S. H. Shah, M.-J. Kim, C.-H. Kim, H.-S. Cho, and T.-K. Kim*, “A review of the porous transport layer in polymer electrolyte membrane water electrolysis” International Journal of Energy Research, (2021) (published online) (SCI).
14.I.-S. Kim, H.-S. Cho, M.-J. Kim, H.-J. Oh, S.-Y. Lee, Y.-K. Lee, C.-S. Lee, J.-H. Lee, W.-C. Cho, S.-K. Kim, J.-H. Joo, and C.-H. Kim*, “Sacrificial Species Approach to Designing Robust Transition Metal Phosphide Cathodes for Alkaline Water Electrolysis in Discontinuous Operation” Journal of Materials of Chemistry A, (2021) (accepted) (SCI).
15.S.-Y. Choi, Y.-T. Park, J.-W. Choi, C.-S. Lee, H.-S. Cho, C.-H. Kim, J.-H. Koo, and H.-M. Lee*, “Structural Effectiveness of AgCl-decorated Ag Nanowires Enhancing Oxygen Reduction” ACS Sustainable Chemistry & Engineering 9, (2021) 22, 7519 (SCI).
16.D.-H. Jang, W.-J. Choi, H.-S. Cho, C.-H. Kim, and S.-G. Kang*, “Numerical modeling and analysis of the temperature effect on the performance of an alkaline water electrolysis system” Journal of Power Sources 506, (2021) 230106 (SCI).
17.W-B. Han, I.-S. Kim, M.-G. Kim, W.-C. Cho, S.-K. Kim, J.-H. Joo, Y.-W. Lee, Y.-H. Cho*, H.-S. Cho*, and C.-H. Kim*, “Directly sputtered nickel electrodes for alkaline water electrolysis” Electrochimica Acta 386, (2021) 138458 (SCI).
18.M.-G. Kim, J.-H. Park, H. Ju, J.-Y. Kim, H.-S. Cho, C.-H. Kim, B.-H. Kim and S.-W. Lee*, “Understanding synergistic metal–oxide interactions of in situ exsolved metal nanoparticles on pyrochlore oxide support for enhanced water splitting”, Energy & Environmental Science 14, (2021) 2507 (SCI).
19.S.-Y. Lee, I.-S. Kim, H.-S. Cho, C.-H. Kim, Y.-K. Lee*, “Resolving Potential-Dependent Degradation of Electrodeposited Ni(OH)2 Catalysts in Alkaline Oxygen Evolution Reaction (OER): In Situ XANES Studies”, Applied Catalysis B: Environmental 284 (2021) 5 119729 (SCI).
20.H.-I. Lee, M. Mehdi, S.-K. Kim, H.-S. Cho, M.-J. Kim, W.-C. Cho, Y.-W. Rhee, C.-H. Kim, “Advanced Zirfon-type porous separator for a high-rate alkaline electrolyser operating in a dynamic mode”, Journal of Membrane Science 616, (2020) 118541 (SCI).
21.J.-W. Lee, C.-S. Lee, J.-H. Lee, S.-K. Kim, H.-S. Cho, M.-J. Kim, W.-C. Cho*, J.-H. Joo, and C.-H. Kim, “Cerium Oxide–Polysulfone Composite Separator for an Advanced Alkaline Electrolyzer”, Polymers 12 (2020) 12, 2821 (SCI).
22.J. Islam, S.-K. Kim, H.-S. Cho, M.-J. Kim, W.-C. Cho*, and C.-H. Kim, “Preparation of boron-carbide-supported iridium nanoclusters for the oxygen evolution reaction”, Electrochemistry Communications 121, (2020) 106877 (SCI).
23.J. Park, C.-H. Kim, H.-S. Cho, S.-K. Kim, W.-C. Cho*, “Techno-Economic Analysis of Green Hydrogen Production System Based on Renewable Energy Sources”, Transactions of the Korean hydrogen and new energy society 31 (2020) 4, 337-344
24.X. Zeng, M.-J. Jang, S.-M. Choi, H.-S. Cho, C.-H. Kim, N. V. Myung*, and Y. Yin*, “Single-crystalline CoFe nanoparticles encapsulated in N-doped carbon nanotubes as a bifunctional catalyst for water splitting”, Materials Chemistry Frontiers 4 (2020) 8, 2307-2313 (SCI).
25.P. D. Dissanayake, C. Sonne, W.-C. Cho, C.-H. Kim, Y.-S. Ok*, “South Korea’s big move to hydrogen society”, Environmental Health 6 (2020) 1, 1856459 (SCI).
26.H.-I. Lee, D. T. Dung, J. Kim, J.-H. Pak, S. Kim, H.-S. Cho, W.-C. Cho*, C.-H. Kim, “The synthesis of a Zirfon‐type porous separator with reduced gas crossover for alkaline electrolyzer”, International Journal of Energy Research 44 (2020) 3, 1875-1885 (SCI).
27.J.-K. Lee, H.-I. Lee, H.-S. Cho, C.-H. Kim, W.-C. Cho*, “Redox reactivity of titania‐doped YSZ‐promoted iron‐based oxygen carrier over multiple redox cycles for chemical looping reforming of methane and hydrogen production”, International Journal of Energy Research 44 (2020) 6, 4919-4932 (SCI).
28.B. Lee, H. Lee, D. Lim, B. Brigljević, W.-C. Cho, H.-S. Cho, C.-H. Kim*, H. Lim*, “Renewable methanol synthesis from renewable H2 and captured CO2: How can power-to-liquid technology be economically feasible?”, Applied Energy 279, (2020) 115827 (SCI).
29.B. Lee, H. Lee, H.-S. Cho, W.-C. Cho, C.-H. Kim*, and H. Lim*, “Projected economic outlook and scenario analysis for H2 production by alkaline water electrolysis on the basis of the unit electricity price, the learning rate, and the automation level”, Sustainable Energy & Fuels (2019) 7, 1799-1807 (SCI).
30.W.-C. Cho, J.-K. Lee, G.-D. Nam, C.-H. Kim, H.-S. Cho, J.-H. Joo*, “Degradation analysis of mixed ionic-electronic conductor-supported iron-oxide oxygen carriers for chemical-looping conversion of methane”, Applied Energy 239 (2019) 644-657 (SCI).
31.S. Lee, H.-S. Cho, W.-C. Cho, S.-K. Kim, Y. Cho, C.-H. Kim* “Operational durability of three-dimensional Ni-Fe layered double hydroxide electrocatalyst for water oxidation”, Electrochimica Acta 315 (2019) 94-101 (SCI).
32.B. Lee, H. Lee, S. Kim, H.-S. Cho, W.-C. Cho, B.-H. Jeon, C.-H. Kim*, and H. Lim*, “Quantification of economic uncertainty for synthetic natural gas production in a H2O permeable membrane reactor as simultaneous power-to-gas and CO2 utilization technologies”, Energy 182 (2019) 1058-1068 (SCI).
33.X. Zeng, S.-M. Choi, Y. Bai, M.-J. Jang, R. Yu, H.-S. Cho, C.-H. Kim, N. V. Myung*, Y. Yin*, “Plasmon-Enhanced Oxygen Evolution Catalyzed by Fe2N-Embedded TiOxNy Nanoshells”, ACS Applied Energy Materials 3 (2019) 1, 146-151 (SCI).