KIER SCHOOL UST

- 국가수소중점연구실 알칼라인 수전해, 2024.7월 ~ 2027.12월, 사업비: 15,400백만원, 과기부
- 수소시범도시인프라 기술개발, 2020년 4월 ~ 2023년 12월, 사업비: 26,979 백만원, 국토부
- 해외 수소 기반 대중 교통 인프라 기술개발, 2021년 4월 ~ 2025년 12월, 사업비: 33,993백만원, 국토부
- 수전해 시스템 가격 저감을 위한 대형 수전해 스택 개발, 2021년 6월 ~ 2023년 5월, 사업비: 500백만원, 민간수탁
- 수출형 경쟁력 확보를 위한 대용량 청정수소 생산/저장 플랜트 설계 및 인허가 대비 기반연구, 2022년 4월 ~ 2024년 3월, 사업비: 490백만원, 산업부
- 12.5MW 재생에너지 연계 대규모 그린수소 실증 기술 개발, 22년 4월 ~ 26년 3월, 사업비: 1,490 백만원, 산업부

- Probing the (de)activation of Raney nickel-iron anodes during alkaline water electrolysis by accelerated deactivation testing, Electrochemistry Communications, 2023
- Effect of Fe on the calcined Ni(OH)2 Anode in alkaline water electrolysis, Catalysts, 2023
- Effect of Plating Variables on Oxygen Evolution Reaction of Ni？Zn？Fe Electrodes for Alkaline Water Electrolysis, Catalysts, 12(2022), p.364,
- Nickel-iron hydroxide oxygen evolution electrocatalysts prepared by a simple chemical bath deposition method, IJHE, 46(2021) p.20313
- Electrochemical characterization of Raney nickel electrodes prepared by atmospheric plasma spraying for alkaline water electrolysis, JIEC, 70(2019) p.160

- Development of hydrogen production and purification system using ammonia cracking
- Development of low and medium temperature solid oxide fuel cell system for power generation over 200kW
- Development of key technology for production of ultra high value-added LAO(Linear α-olefins) from syngas

- Effect of Ba impregnation on Al2O3 catalyst for 1-octene production by 1-octanol dehydration, Fuel, 281(2020)118791
- Production of linear α-olefins 1-octene via dehydration of 1-octanol over Al2O3 catalyst, Fuel, 256(2019)115957
- Ru-coated metal monolith catalyst prepared by novel coating method for hydrogen production via natural gas steam reforming, Catal.Today, 93-294(2017)129-135
- Ni nanosheet-coated monolith catalyst with high performance for hydrogen production via natural gas steam reforming, Appl.Catal.A, 525(2016)103-109
- Syngas production by combined steam and CO2 reforming of coke oven gas over highly sinter-stable La-promoted Ni/MgAl2O4 catalyst, Int.J.HydrogenEnergy, 40(2015)13909-13917
- Combined H2O and CO2 reforming of coke oven gas over Ca-promoted Ni/MgAl2O4 catalyst for syngas production, Fuel, 153(2015)303-309
- Diesel pre-reforming over highly dispersed nano-sized Ni catalysts supported on MgO-Al2O3 mixed oxides, Int.J.HydrogenEnergy, 39(2014)10941-10950
- A highly dispersed Pt/γ-Al2O3 catalyst prepared via deposition-precipitation method for preferential CO oxidation, Int.J.HydrogenEnergy, 39(2014)5696-5703
- Syngas production via combined steam and carbon dioxide reforming of methane over Ni-Ce/MgAl2O4 catalysts with enhanced coke resistance, FuelProcess.Technol., 119(2014)151-157
- Combined H2O and CO2 reforming of CH4 over Ce-promoted Ni/Al2O3 catalyst for gas to liquid (GTL) process: Enhancement of Ni-CeO2 interaction, Catal.Today, 185(2012)126-130

- Development of system technology demonstration for high-temperature PEMFC
- Development on localization technologies of stationary fuel cell systems for exportation-purpose
- Development and demonstration of 25 kW-class stationary fuel cell system

- Seonghyeon Ham, Donghwan Park, Won-Yong Lee, Minjin Kim†, “Simulation to analyze operation strategy of combined cooling and power system using a high-temperature polymer electrolyte fuel cell for data centers,” International Journal of Hydrogen Energy, 48, 8247-8259 (2023).
- Donghwan Park, Seonghyeon Ham, Young-Jun Sohn, Yoon-Young Choi, Minjin Kim†, “Mass transfer characteristics according to flow field and gas diffusion layer of a PEMFC metallic bipolar plate for stationary applications,” International Journal of Hydrogen Energy, 48, 304-317 (2023).
- Mingoo Choi, Minjin Kim†, Young-Jun Sohn, Seung-Gon Kim, “Development of preheating methodology for a 5 kW HT-PEMFC system,” International Journal of Hydrogen Energy, 46, 74, 36982-36994 (2021).
- Hwanyeong Oh, Won-Yong Lee, Jinyeon Won, Minjin Kim, Yoon-Young Choi, Soo-Bin Han, “Residual-based fault diagnosis for thermal management systems of proton exchange membrane fuel cells,” Applied Energy, 277, 115568 (2020).
- Won-Yong Lee, Hwanyeong Oh, Minjin Kim, Yoon-Young Choi, Young-Jun Sohn, Seung-Gon Kim, “Hierarchical fault diagnostic method for a polymer electrolyte fuel cell system,” International Journal of Hydrogen Energy, 45, 25733-25746 (2020).
- Seok-Ho Seo, Si-Doek Oh, Hwanyeong Oh, Minjin Kim, Won-Yong Lee, Ho-Young Kwak , “Thermal management for a hydrogen-fueled 1-kW PEMFC based on thermoeconomic analysis,” International Journal of Hydrogen Energy, 44, 24934-24946 (2019).
- Won-Yong Lee, Minjin Kim†, Young-Jun Sohn, Seung-Gon Kim, “Performance of a hybrid system consisting of a high-temperature polymer electrolyte fuel cell and an absorption refrigerator,” Energy, 141, 2397-2407 (2017).
- Young-Jun Sohn, Sung-Dae Yim, Gu-Gon Park, Minjin Kim, Suk-Won Cha, Kyoungyoun Kim, “PEMFC modeling based on characterization of effective diffusivity in simulated cathode catalyst layer,” International Journal of Hydrogen Energy, 42, 13226-13233 (2017).
- Won-Yong Lee, Minjin Kim†, Young-Jun Sohn, Seung-Gon Kim, “Power optimization of a combined power system consisting of a high-temperature polymer electrolyte fuel cell and an organic Rankine cycle system,” Energy, 113, 1062-1070 (2016).
- Kim, J., Kim, M.†, Lee, B.-G., Sohn, Y.-J., “Durability of high temperature polymer electrolyte membrane fuel cells in daily based start/stop operation mode using reformed gas,” International Journal of Hydrogen Energy, 40, 24, 7769-7776 (2015.06).
- Kim, J., Kim, M.†, Kang, T., Sohn, Y.-J., Song, T., Choi, K.-H., “Degradation modeling and operational optimization for improving the lifetime of high-temperature PEM (proton exchange membrane) fuel cells,” Energy, 66, 41-49 (2014.03).
- Kim, M., Sohn, Y.-J., Lee, W.-Y., Kim, C.-S. “Fuzzy control based engine sizing optimization for a fuel cell/battery hybrid mini-bus,” Journal of Power Sources, 178, 7.6-710 (2008).
- Kim, M., Sohn, Y.-J., Cho C.-W., Lee, W.-Y., Kim, C.-S. “Customized design for the ejector to recirculate a humidified hydrogen fuel in a submarine PEMFC,” Journal of Power Sources, 176, 529-533 (2008).

- AEM/PEM 수전해 촉매, 전극, MEA/셀 기술 개발
(R&D on catalyst, electrode, MEA/Cell for PEM/AEM water electrolyzer)
- 전기화학적 수소 압축기 기술 개발
(R&D on Electrochemical hydrogen compressor)

1. Jahowa Islam, Sang-Kyung Kim*, Md Mizanur Rahman, Phan Thanh Thien, Min-Joong Kim, Hyun-Seok Cho, Changsoo Lee, Jae Hun Lee, Sechan Lee, “The effect of iridium content in boron carbide-supported iridium catalyst on the activity and stability of proton exchange membrane water electrolyzer”, Mat. Today Energy, 32 (2023), 101237.
2. Jahowa Islam, Byung Sun Yoon, Phan Thanh Thien, Chang Hyun Ko*, and Sang-Kyung Kim*, “Enhancing Oxygen Evolution Reaction Performance in PEM Water Electrolyzers through Support Pore Structure Optimization”, Catalysis Today, 425 (2024), 114349.
3. Thanh Thien Phan, Sang-Kyung Kim*, Jahowa Islam, Min-Joong Kim, and Jae-Hun Lee, “Degradation analysis of polymer electrolyte membrane water electrolyzer with different membrane thicknesses”, International Journal of Hydrogen Energy., 49 (2024), 875.
4. Tae­Yeol Jeon, Seung­Ho Yu, Sung J. Yoo, Hee­Young Park, Sang-Kyung Kim*, “Electrochemical determination of the degree of atomic surface roughness in Pt？Ni alloy nanocatalysts for oxygen reduction reaction”, Carbon Energy, 3 (2021), 375.
5. Jahowa Islam, Sang-Kyung Kim*, Phan Thanh Thien, Min-Joong Kim, Hyun-Seok Cho, Won-Chul Cho, Chang-Hee Kim, Changsoo Lee, Jae Hun Lee, “Enhancing the activity and durability of iridium electrocatalyst supported on boron carbide by tuning the chemical state of iridium for oxygen evolution reaction”, J. Power Sources, 512 (2021), 230506.

- Green hydrogen Manufacturing by high-temperature electrolysis

- G. Hong, T.W. Kim, M. Kwak, J. Song, Y. Choi. S.K. Woo, M.H. Han, C.H. Cho, S.D. Kim, J. Alloy Compd., 846 (2020) 156154
- H.J. Choi, T.W. Kim, Y.H. Na, D.W. Seo, S.K. Woo, J.Y. Huh, S.D. Kim, J. Power Sources, 406 (2018) 81-87.
- H.J. Choi, Y.-H. Na, D.-W. Seo, S.-K. Woo, S.D. Kim, Ceram. Int, 42 (2016) 545-550.
- H.J. Choi, Y.-H. Na, D.-W. Seo, S.-K. Woo, S.D. Kim, Ceram. Int., 42 (2016) 545-550.

- Development of Ceramic Matrix Composites for High Temperature Components of the H-Class Gas Turbine
- Development of SiC Fiber Reinfored Ceramic Composite Technology for 1500℃ Scale Gas Turbine
- Development of structure integrated planar heating element using fiber-reinforced composite materials

- Choi, J. H., Kim, S., Kim, S. H., Han, I. S., Seong, Y. H., Bang, H. J., Thermal and mechanical properties of C/SiC composites fabricated by liquid silicon infiltration with nitric acid surface-treated carbon fibers. Journal of Ceramic Processing Research, 20(1), 2019, pp.48-53.
- Seulhee Lee, Soo-Hyun Kim, Seyoung Kim, Jaehyung Choi, Heon-Jin Choi, Hoop tensile strength of tubular carbon fiber reinforced silicon carbide matrix composites, Ceramics International, 44, 2018, pp.17087-17093
- Soo-Hyun Kim, Hyung-Ki Shin, Young-Chul Joo, Keon-Hoon Kim, A study of the wake effects on the wind characteristics and fatigue loads for the turbines in a wind farm, Renewable Energy, Vol. 74, 2015, pp.536-543
- Soo-Hyun Kim, Hyung-Joon Bang, Hyung-Ki Shin, Moon-Seok Jang, Composite Structural Analysis of Flat-back Shaped Blade for Multi-MW Class Wind Turbine, Applied Composite Materials, Vol. 21, 2014, pp.525-539
- Soo-Hyun Kim, Chun-Gon Kim, Optimal Design of Composite Stiffened Panel with Cohesive Elements using Micro-Genetic Algorithm, Journal of Composite Materials, 42(21), 2008, pp.2259-2273

● 12.5MW 재생에너지 연계 대규모 그린수소 실증 기술 개발 (Development of large scale green hydrogen demonstration technology connected with 12.5㎿ renewable energy)
● 수소경제 조기 구현을 위한 청정 수소 생산기술 개발 (Development of a catalytic process for the production of low-carbon hydrogen for early implementation of hydrogen economy)
● 천연가스로부터 고결정성 전도성 흑연구조를 갖는 탄소소재 개발 (Development of natural gas based carbon material on graphitic structure for high crystalline conductivity)

1. Effect of reduction conditions of Mo-Fe/MgO on the formation of carbon nanotube in catalytic methane decomposition, Journal of Industrial and Engineering Chemistry 109 (2022), 384-396, Seon Joo Park, Ki-Duk Kim, Young Soo Park, Kang Seok Go, Woohyun Kim, Min Jae Kim, Nam Sun Nho, Dong Hyun Lee
2. Kinetic Study on CO-Selective Methanation over Nickel-Based Catalysts for Deep Removal of CO from Hydrogen-Rich Reformate, Catalysts 11 (2021), 1429, Woohyun Kim, Khaja Mohaideen Kamal, Dong Joo Seo and Wang Lai Yoon
3. One-pot synthesis of a highly mesoporous Ni/MgAl2O4 spinel catalyst for efficient steam methane reforming: influence of inert annealing, Catalysis Science & Technology 11 (2021), 4447-4458, Hyunjoung Kim, Ahmed Al-Shahat Eissa, Seung Bo Kim, Hongjin Lee, Woohyun Kim, Dong Joo Seo, Kyubock Lee and Wang Lai Yoon
4. Hydrocracking and hydrotreating reaction kinetics of heavy oil in CSTR using a dispersed catalyst, Journal of Petroleum Science and Engineering 197 (2021), 107997, Hung Hai Pham, Kwang Ho Kim, Kang Seok Go, Nam Sun Nho, Woohyun Kim, Eun Hee Kwon, Ho Jung Ryu, Young-il Lim, Suk Hyun Lim, Dung Anh Pham
5. Enhanced CO2 Methanation Reaction in C1 Chemistry over a Highly Dispersed Nickel Nanocatalyst Prepared Using the One-Step Melt-Infiltration Method, Catalysts 10 (2020), 643-655, Eui Hyun Cho, Woohyun Kim, Chang Hyun Ko, Wang Lai Yoon
6. Computational fluid dynamics and experimental validation of a compact steam methane reformer for hydrogen production from natural gas, Applied Energy 236 (2019), 340-353, Son Ich Ngo, Young-Il Lim, Woohyun Kim, Dong Joo Seo, Wang Lai Yoon
7. Optimal design of a sleeve-type steam methane reforming reactor for hydrogen production from natural gas, international Journal of Hydrogen Energy 44 (2019), 1973-1987, Dan Duc Nguyen, Son Ich Ngo, Young-Il Lim, Woohyun Kim, Uen-Do Lee, Dong Joo Seo, Wang Lai Yoon
8. Kinetic model of steam-methane reforming reactions over Ni-based catalyst, Korean Chemical Engineering Research 56 (2018), 914-920, Hong Jin Lee, Woohyun Kim, Kyubock Lee, Wang Lai Yoon

1. 공기 중 이산화탄소 직접 포집, 한국연구재단. 2023.04.01. ~ 2025.12.31.
2. 기체확산층 개발, K-Carbon Projects, 산업기술평가원, 2024.04.01. ~ 2028.12.31.
3. 전기화학적 과산화수소 생산, 한국에너지기술연구원, 2024.01.01. ~ 2027.12.31.

1. Kumar, Y.; Kim, T. H.; Subiyanto I.; Devina, W.; Byun, S.; Nandy, S.; Chae, K. H.; Lim, S.; Kim, B.; Kang, S.; Han, S. O.; Yim, K.; Yoo, J.; Kim, H. “Redox-active conductive metal？organic framework with high lithium capacities at low temperatures” J. Mater. Chem. A 2024, Advance Article (Selected as Front Cover)
2. Devina, W.; Subiyanto I.; Han, S. O.; Yoon, H. C.; Kim, H.* “Double-Shelled Fe？Fe3C Nanoparticles Embedded on a Porous Carbon Framework for Superior Lithium-Ion Half/Full Batteries” ACS Appl. Mater. Interfaces 2024, 16, 23087？23098. (Selected as Back Cover)
3. Choi, W.; Byun, S.; Yeon C.; Lee, C-W.; Subiyanto, I.; Son, Y.; Han, S. O.; Kim, H.* “Defective lithium titanate oxide with stable cycling over a wide voltage window” Applied Surface Science, 2023, 614, 156134
4. Sohail, M.; An, H.; Choi, W.; Singh, J.; Yim, K.; Kim, B.-H.; Park, Y. C.; Lee, J. S.; Kim, H.* “Sorption-enhanced thin film composites with metal-organic polyhedral nanocages for CO2 separation” J. Membr. Sci. 2021, 620, 118826.
5. Lam, D. V,; Sohail, M.; Kim, J.-H.; Lee, H. J.; Han, S. O.; Shin, J.; Kim, D.; Kim, H.;* Lee, S.-M. “Laser Synthesis of MOF-Derived Ni@Carbon for High-Performance Pseudocapacitors” ACS Appl. Mater. Interfaces 2020, 12, 39154？39162.
6. Singh, J.; Kim, D. H.; Kim, E.-H.; Kim, H.*; Hadiputra, R.; Jung, J.; Chi, K.-W. “The First Quantitative Synthesis of a Closed Three-Link Chain (613) Using Coordination and Noncovalent Interactions-Driven Self-Assembly” J. Am. Chem. Soc. 2020, 142, 9327？9336.
7. Kim, H.*; Sohail, M.; Yim, K.; Park, Y. C.; Chun, D. H.; Kim, H. J.; Han, S. O.; Moon, J.-H. “Effective CO2 and CO Separation Using [M2(DOBDC)] (M = Mg, Co, Ni) with Unsaturated Metal Sites and Excavation of Their Adsorption Sites” ACS Appl. Mater. Interfaces 2019, 11, 7014？7021.
8. Kim, D. H.; Singh, N.; Oh, J.; Kim, E.-H. Jung, J.; Kim, H. *; Chi, K.-W. * “Coordination­Driven Self­Assembly of a Molecular Knot Comprising Sixteen Crossings” Angew. Chem. Int. Ed. 2018, 57, 5669.
9. Kim, T.; Singh, N.; Oh, J.; Kim, E.-H.; Jung, J.; Kim, H.*; Chi, K.-W.* “Selective Synthesis of Molecular Borromean Rings: Engineering of Supramolecular Topology via Coordination-Driven Self-Assembly”, J. Am. Chem. Soc. 2016, 138, 8368.
10. Kim, H.; Kim, Y.; Yoon, M.; Lim, S.; Park, S.; Seo, G.; Kim, K. “Highly Selective Carbon Dioxide Sorption in an Organic Molecular Porous Material” J. Am. Chem. Soc. 2010, 132, 12200.

- 5×5㎠ 전해질 지지형 프로톤 전도성 수전해 셀/스택 요소기술 개발, 연구책임자 (2021-07-01 ~ 2024-12-31)

- (1저자) Atomic-scale observation of premelting at 2D lattice defects inside oxide crystals, Nat. Commun., 2023, 14, 2255.
- (교신저자) Anisotropic Proton Migration in Hexagonal Perovskite Related Ba5Er2Al2ZrO13 Oxide, Chem. Mater., 2023, 35, 9493-9504.
- (교신저자) A multicomponent equimolar proton-conducting quadruple hexagonal perovskite-related oxide system, Dalton Trans., 2023, 52, 1885.

1. Atomic-scale 설계 및 single-molecule 촉매 기반 메탄산화이량화 촉매 C2 한계수율 돌파 연구(과기부, 연구재단 기초연구사업(중견연구자))
2. 부생탄화수소의 건식개질을 위한 기상법 기반 coking-free 촉매 제조기술 개발(KIER 기본사업)
3. 분산형 연료전지 시스템 신뢰성 평가 기술 개발 (산업부, 신재생에너지기술개발사업)
4. 발전용 SOFC 스택 및 모듈화 핵심기술 개발 (KIER 기본사업)
5. 수소제조성능 향상을 위한 single molecule 촉매 합성 및 성능 평가 연구(KIER 기본사업)

1. Biomass-Derived Nickel Phosphide Nanoparticles as a Robust Catalyst for Hydrogen Production by Catalytic Decomposition of C2H2 or Dry Reforming of CH4[ACS APPLIED ENERGY MATERIALS,2019-11-26]
2. Synthesis of ZrO2 Nanorods and Their Application as Membrane Materials[JOURNAL OF THE KOREAN CERAMIC SOCIETY,2019-12-02]
3. Platinum Encapsulated within a Bacterial Nanocellulosic？Graphene[ACS APPLIED ENERGY MATERIALS,2021-01-14]
4. Effect of facile nitrogen doping on catalytic performance of NaW/Mn/SiO2 for oxidativa coupline of methane[APPLIED CATALYSIS B-ENVIRONMENTAL,2021-03-19]
5. Preparation and application of 0D-2D nanomaterial hybrid heterostructures for energy applications[MATERIALS TODAY ADVANCES,2021-09-20]