[58] Yo Han Kim†, Hyeongwon Jeong†, Bo-Ram Won†, Hyejin Jeon, Chan-ho Park, Dayoung Park, Yeeun Kim, Somi Lee and Jae-ha Myung*, “Nanoparticle Exsolution on Perovskite Oxides: Insights into Mechanism, Characteristics and Novel Strategies”, Nano-Micro Letters 16 (33) (2023).
[57] Dayoung park†, Dahee Kang†, Yo Han Kim†, Chan-ho Park, Jae-ha Myung*, “Design of Nano-Composite Structured Electrode for High-Performance and Stability of Metal-Supported Solid Oxide Cells”, Advanced Materials Technologies 8 (19), 2300465 (2023).
[56] Chan-ho Park, Yo Han Kim, Hyeongwon Jeong, Bo-Ram Won, Hyejin Jeon, Jae-ha Myung*, “Development of robust YSZ thin-film electrolyte by RF sputtering and anode support design for stable IT-SOFC”, Ceramics International 49 (20), 32953-32961 (2023).
[55] Hyeongwon Jeong, Yo Han Kim, Bo-Ram Won, Hyejin Jeon, Chan-ho Park, Jae-ha Myung*, “Emerging Exsolution Materials for Diverse Energy Applications: Design, Mechanism, and Future Prospects”, Chemistry of Materials 35 (10), 3745-3764 (2023), Front Cover.
[54] Hyeongwon Jeong and Jae-Ha Myung*, “Synergistically enhanced oxygen evolution catalysis with surface modified holloysite nanotube”, Journal of Electrochemical Science and Technology 14 (1), 96-104 (2023).
[53] Yo Han Kim, Hyeongwon Jeong, Bo-Ram Won and Jae-Ha Myung*, “Exsolution modeling and control to improve the catalytic activity of nanostructured electrodes”, Advanced Materials 35 (16), 2208984 (2023).
2022
[52] Junkai Wang, Lei Fu, Jiaming Yang, Zhengrong Liu, Jun Zhou*, Jae-ha Myung and Kai Wu, “In Situ Growth of Ru/RuO2 Nanoparticle-Modified (PrBa)0.95Mn1.9Ru0.1O5+δ as a High-Performance Electrode for Symmetrical Solid Oxide Fuel Cells.” Energy & Fuels (2022).
[51] Seungyeon Jo†, Yo Han Kim†, Hyeongwon Jeong†, Chan-ho Park, Bo-Ram Won, Hyejin Jeon, Kang Taek Lee* and Jae-ha Myung*, “Exsolution of phase-separated nanoparticles via trigger effect toward reversible solid oxide cell.” Applied Energy 323, 119615 (2022).
[50] Bo-Ram Won, Yo Han Kim, Seungyeon Jo and Jae-Ha Myung*, “Highly Flexible Solid Oxide Fuel Cells Using Phase-Controlled Electrolyte Support.” Journal of the European Ceramic Society 42 (13), 5813-5819 (2022).
[49] Ok Sung Jeon, Hyesung Lee, Kug-Seung Lee, Vinod K Paidi, Yunseong Ji, Oh Chan Kwon, Jeong Pil Kim, Jae-Ha Myung, Sang Yoon Park, Young Joon Yoo, Jin Goo Lee*, Sang-Yup Lee* and Yong Gun Shul*, “Harnessing Strong Metal–Support Interaction to Proliferate the Dry Reforming of Methane Performance by In Situ Reduction.” ACS Applied Materials & Interfaces 14 (10), 12140-12148 (2022).
[48] Hyeongwon Jeong, Bharat Sharma, Seungyeon Jo, Yo Han Kim and Jae-ha Myung*, “Electrochemical characteristics of La0. 8Sr0. 2MnO3 (LSM)–scandia-stabilized zirconia (ScSZ) composite cathode.” Journal of the Korean Ceramic Society 1-7 (2022).
[47] Sang Hun Kim†, Hyeongwon Jeong†, Bharat Sharma†and Jae-ha Myung*, “In Situ Exsolution Catalyst: An Innovative Approach to Develop Highly Selective and Sensitive Gas Sensors.” ACS Applied Materials & Interfaces 14 (16), 18275-18282 (2022), Supplementary Cover.
[46] Yo Han Kim, Youngho Kang, Seungyeon Jo, Hyeongwon Jeong, Dragos Neagu and Jae-ha Myung*, “Shape-shifting Nanoparticles on a Perovskite Oxide for Highly Stable and Active Heterogeneous Catalysis.” Chemical Engineering Journal 441, 136025 (2022).
2021
[45] Bharat Sharma*, Ashutosh Sharma* and Jae-ha Myung*, “Highly selective detection of acetone by TiO2-SnO2 heterostructures for envionmental biomarkers of diabetes.” Sensors and Actuators B: Chemical 349, 13733 (2021).
[44] Bharat Sharma*, Ashutosh Sharma* and Jae-ha Myung*, “Selective ppb-level NO2 gas sensor based on SnO2-boron nitride nanotubes.” Sensors and Actuators B: Chemical 331, 129464 (2021).
[43] Seungyeon Jo, Hyeon Gwon Jeong, Yo Han Kim, Dragos Neagu* and Jae-ha Myung*, “Stability and Activity Controls of Cu Nanoparticles for High-performance Solid Oxide Fuel Cells.” Applied Catalysis B: Environmental 285, 119828 (2021).
[42] Junwei Wu, Jae-ha Myung, Dong Ding, Tenglong Zhu, “Editorial: High Temperature Solid Oxide Cells” Frontiers in Chemistry 9 (2021).
[41] Eunseo Lee, Hyeongwon Jeong, Tae Ho Shin and Jae-ha Myung*, “Determination of the rate-determining step of the oxygen reduction reaction of La0. 8Sr0. 2MnO3 (LSM)-8mol% yttria-stabilized zirconia (YSZ): Composition and microstructure.” Ceramics International 47 (2), 1792-1797 (2021).
2020
[40] Bharat Sharma*, Ashutosh Sharma, Monika Joshi and Jae-ha Myung*, “Sputtered SnO2/ZnO Heterostructures for Improved NO2 Gas Sensing Properties.” Chemosensors 8 (3), 67 (2020).
[39] Wenji Jin, Seongjin Ha, Jae-ha Myung, Byoung Choul Kim and Dae-Hwan Park, “Ceramic layered double hydroxide nanohybrids for therapeutic applications” Journal of the Korean Ceramic Society 57 (6), 597-607 (2020).
[38] Bharat Sharma*, Jung-Suk, Avinash A Kadam* and Jae-ha Myung*, “Adjustable npn gas sensor response of Fe3O4-HNTs doped Pd nanocomposites for hydrogen sensors.” Applied Surface Science 530, 147272 (2020).
[37] Bharat Sharma*, Avinash A Kadam*, Jung-Suk Sung and Jae-ha Myung*, “Surface tuning of halloysite nanotubes with Fe3O4 and 3-D MnO2 nanoflakes for highly selective and sensitive acetone gas sensing.” Ceramics International 46 (13), 21292-21303 (2020).
[36] Bharat Sharma and Jae-ha Myung*, “Enhanced nitrogen dioxide sensing properties of Ni4Cr1/SnO2 heterostructures.” Ceramics International 46 (11), 19311-19317 (2020).
[35] HyeonGwon Jeong, Doyeub Kim, Bharat Sharma, Jong Hyeok Noh, Kang Taek Lee* and Jae-ha Myung*, “Surface decorated La0.43Ca0.37Ni0.06Ti0.94O3-d as an anode functional layer for solid oxide fuel cell applications.“, Korean Journal of Chemical Engineering 37 (8), 1440-1444 (2020).
[34] Yo Han Kim, Tae Ho Shin and Jae-ha Myung*, “MoSi2-based cylindrical susceptor for rapid high-temperature induction heating in air.”, Ceramics International, 46 (15), 23636-23642 (2020).
[33] Seungyeon Jo, Bharat Sharma, Dea-Hwan Park and Jae-ha Myung*, “Materials and nano‑structural processes for use in solid oxide fuel cells: a review.”, Journal of the Korean Ceramic Society, 57, 135-151 (2020).
[32] Jin Goo Lee*, Jae-ha Myung, Aaron B. Naden, Ok Sung Jeon, Yong Gun Shul* and John T. S. Irvine* “Replacement of Ca by Ni in a Perovskite Titanate to Yield a Novel Perovskite Exsolution Architecture for Oxygen‐Evolution Reactions.” Advanced Energy Materials, 1903693 (2020).
[31] Sung-Chul Lee, Jae-ha Myung, Yong-Nam Kim, Minseok Jeon, Dong-Won Lee, Jong-Min Oh and Bae-Yeon Kim, “Oxidation behavior of (Mo1-xWx)Si2 high-temperature heating elements” Journal of the Korean Crystal Growth and Crystal Technology 30 (5), 200-207 (2020).
2019
[30] Bharat Sharma and Jaeha Myung*, “Pd-based ternary alloys used for gas sensing applications: A review.” International Journal of Hydrogen Energy 44 ( 57), 30499-30510 (2019).
[29] Jeong Hwa Park, Kyung Taek Bae, Kyeong Joon Kim, Dong Woo Joh , Doyeub Kim, Jae-ha Myung* and Kang Taek Lee*, “Ultra-fast fabrication of tape-cast anode supports for solid oxide fuel cells via resonant acoustic mixing technology”, Ceramics International, 45 (9), 12154-12161 (2019)
[28] Yukwon Jeon, Ohchan Kwon, Jae-ha Myung, Chanmin Lee, Gicheon Lee, SangSun Park, John T.S.Irvine* and Yong-gun Shul, “Positional influence of Ru on Perovskite structured catalysts for efficient H2 production process by heavy-hydrocarbon source”, Applied Catalysis A: General, 117111 (2019)
[27] Jonghyeok Noh and Jae-ha Myung*, “Optimization of anode and electrolyte microstructure for Solid Oxide Fuel Cells”, Korean Chemical Engineering Research, 57 ( 4), 525-530 (2019)
[26] Sung-chul Lee†, Yohan Kim†,Bea-yeon Kim and Jae-ha Myung*, “Induction Heating of Cylindrical MoSi2-based Susceptor, Korean Chemical Engineering Research, 57 (4), 553-558 (2019)
2018
[25] Myunggeun Park, Jin Goo Lee, Ok Sung Jeon, Teaho Shin, Jaeha Myung* and Yong Gun Shul*, Coke-tolerant La2 Sn2O7-Ni-Gd0.1Ce0.9O1.95 composite anode for direct methane-fueled solid oxide fuel cells. Journal of Electroceramics, 40 (4), 323-331. (2018)
[24] Jin Goo Lee, Ok Sung Jeon, Jaeha Myung and Yong Gun Shul*, One-step fabrication of surface-decorated inorganic nanowires via single-nozzle electrospinning. Ceramics International, 44 (10), 11858-11861. (2018)
[23] Sung Hwan Min , Jin Goo Lee, Jaeha Myung, Ok Sung Jeon, Myeong Geun Park, Kwang Hyun Ryu and Yong-Gun Shul* Characteristics of Ba (Zr0. 1Ce0.7Y0.2) O3-δ nano-powders synthesized by different wet-chemical methods for solid oxide fuel cells. Ceramics International, 44 (1), 433-437 (2018)
2017
[22] Daehee Lee†, Jaeha Myung†, Jeiwan Tan, Sang-Hoon Hyun*, John. T. S. Irvine*, Joosun Kim and Jooho Moon, “Direct methane fueled solid oxide fuel cells via catalytic partial oxidation enabling complete coking tolerance of Ni based anodes”, Journal of Power Sources 345, 30-40 (2017)
[21] Yukwon Jeon†, Jae-ha Myung†, Sang-hoon Hyun*, John T. S. Irvine* and Yong-gun Shul*, “Corn-cob like Nanofibres as Cathode Catalysts for an Effective Microstructure Design in Solid Oxide Fuel Cells, Journal of Materials Chemistry A 5, 3966-3973 (2017)
[20] Yukwon Jeon, Chanmin Lee, Junki Rhee, Gicheon Lee, Jae-ha Myung, Myunggeun Park, Joo-Il Park, Hisahiro Einaga and Yong-Gun Shul*, “Autothermal reforming of heavy-hydrocarbon fuels by morphology controlled perovskite catalysts using carbon templates”, Fuel 187 (1), 446-456 (2017)
2016
[19] Jae-ha Myung†, Dragos Neagu†, David N. Miller and John T.S. Irvine*, “Switching on Electrocatalytic Activity in Solid Oxide Cells”, Nature 537, 528-531 (2016)
[18] Jae-ha Myung†, Taeho Shin†, Xiubing Huang, Cristian Savaniu, and John T.S. Irvine*, “La7Ca0.3Ni0.75Cu0.25O4‐δ‐Layered Perovskite as Cathode on La0.9Sr0.1Ga0.8Mg0.2O3 or Ce0.8Gd0.2O2 Electrolyte for Intermediate Temperature Solid Oxide Fuel Cells”, International Journal of Applied Ceramic Technology 13 (2), 269–273 (2016)
2015
[17] Jae-ha Myung, Dragos Neagu, Mark Tham and John T.S. Irvine*, “in situ Tailored Nickel Nano-catalyst Layer for Internal Reforming Hydrocarbon Fueled SOFCs”, ECS Transactions, (2015)
[16] Jae-ha Myung, Youn-Woo Hong, Mi Jai Lee, Dae-Woo Jeon, Young-Jin Lee, Jonghee Hwang, Tae Ho Shin and Jong Hoo Paik, “Structural and electrochemical characterization of K2NiF4 type layered perovskite as cathode for SOFCs”, Journal of the Korean Crystal Growth and Crystal Technology 25(3), 116-120 (2015)
[15] TaeHo Shin†, Jae-ha Myung†, Khan M Naeem, Cristian Savaniu and John T. S. Irvine*, “Ce(Mn,Fe)O2 -(La,Sr)(Fe,Mn)O3 composite as an active cathode for electrochemical reduction of CO2 in proton conducting solidoxide electroyser”, Solid State Ionics, 275 106-109 (2015)
[14] Jae-ha Myung†, Tae Ho Shin†, Xiubing Huang, George Carins and John T.S. Irvine*,”Enhancement of Redox Stability and Electrical Conductivity by Doping Various Metals on Ceria, Ce1-xMxO2-δ (M=Fe, Ni, Cu, Co, Mn, Ti, Zr)”, International Journal of Hydrogen Energy 40 (35), 12003-12008 (2015)
[13] Jae-ha Myung, Sun-Dong Kim, Tae Ho Shin, Daehee Lee and John T.S. Irvine*, Jooho Moon* and Sang-Hoon Hyun*, “Nano-composite structural Ni-Sn alloy anode for high performance and durability of direct methane-fueled SOFCs”, Journal of Materials Chemistry A 3, 13801-13806 (2015)
[12] Jae-ha Myung, Taeho shin, Sun-Dong Kim, Hae-Gu Park and Jooho Moon*, Sang-Hoon Hyun*, “Optimization of Ni–zirconia based anode support for robust and high-performance 5 × 5 cm2 sized SOFC via tape-casting/co-firing technique and nano-structured anode”, International Journal of Hydrogen Energy 40 (6) 2792-2799 (2015).
[11] M. M. Hossain, Jae-ha Myung, R. Lan, M. Cassidy, I. Burns and S. Tao and J. Irvine*, “Study on Direct Flame Solid Oxide Fuel Cell Using Flat Flame Burner and Ethylene Flame”, ECS Transactions, (2015)
[10] Tae Ho Shin, Jae-ha Myung, Maarten Verbraeken, Guntae Kim, and John T. S. Irvine*,” Oxygen Deficient Layered Double Perovskite as an Active Cathode for CO2 Electrolysis Using Solid Oxide Conductor”, Faraday Discussions 182, 227-239 (2015)
2014
[9] Jae-ha Myung, Hyun-Jun Ko, Chang Hyeok Im, Jooho Moon* and Sang-Hoon Hyun*, “Development of solid oxide fuel cells (SOFCs) by tape-casting and single-step co-firing of monolithic laminates”, International Journal of Hydrogen Energy 39 (5), 2313-2319 (2014)
2012
[8] Jae-ha Myung, Hyun-Jun Ko, Jong-Jon Lee, Ji-Hwan Lee and Sang-Hoon Hyun*, “Synthesis and Characterization of NiO/GDC-GDC Dual Nano-composite Powders for High-performance Methane Fueld Solid Oxide Fuel Cells”, International Journal of Hydrogen Energy 37 (15), 11351-11359 (2012)
[7] Jae-ha Myung, Hyun-Jun Ko, Hae-Gu Park, Hwan Moon and Sang-Hoon Hyun*, “Fabrication and Characterization of Planar-type SOFC Unit Cells using the Tape-casting/Lamination/Co-firing Method”, International Journal of Hydrogen Energy 37 (1), 498-504 (2012)
[6] Hyun Jun Ko, Jae-ha Myung, Ji-Hwan Lee, Sang-Hoon Hyun and Jong Shik Chung, “Synthesis and Evaluation of (La0.6Sr0.4)(Co0.2Fe0.8)O3 (LSCF) – Y0.16Zr0.92O1.96 (YSZ) – Gd0.1Ce0.9O2-δ (GDC) Dual Composite SOFC Cathodes for High Performance and Durability”, International Journal of Hydrogen Energy 37 (22), 17209-17216 (2012)
[5] Hyun-Jun Ko, Jae-ha Myung, Hyun-Sang –Hoon* and Jong Shik Chung*, “Synthesis of LSM-YSZ-GDC Dual Composite SOFC Cathodes for High-performance Power-generation Systems,” Journal of Applied Electrochemistry 42(4), 209-215 (2012)
2011
[4] Jae-ha Myung, Hyun-Jun Ko, Jong-Jin Lee and Sang-Hoon Hyun*, “Optimization of Flow Rate for Improving Performance and Stability of Ni-YSZ Based Solid Oxide Fuel Cells using CH4 Fuel”, International Journal of Electrochemical Science 6 (5), 1617-1629 (2011)
2010
[3] Jae-ha Myung, Jong-Jin Lee and Sang-Hoon Hyun*, “Performance Improvement of Oxide Catalyst-Doped Anode-Supported SOFCs for Methane Fuel,” Electrochemical and Solid State Letters 13 (4), B 43-45 (2010)
2009
[2] Jae-ha Myung, Jong-Jin Lee and Sang-Hoon Hyun*, “Performance Improvement of Oxide Catalyst-Doped Anode-Supported SOFCs for Methane Fuel”, ECS Transactions 25, 2099-2106 (2009)
[1] Jong-Jin Lee, Jae-ha Myung, Hyun Jun Ko and Sang-Hoon Hyun*, “Preparation and Performance of CuO-GDC Anode Supported Unit Cells for Direct Utilization of Hydrocarbon Fuels”, ECS Transactions 25, 1143-1148 (2009)
