Journal Papers

210. A. Yadav, A. M, E. Baasanjav, B. Chakraborty, S. M. Jeong, M. K. Singh, C. S. Rout "Magnetic Field-Induced Capacitance Enhancement in MnCoP Nanorods" ACS Applied Electronic Materials, 7, 11006-11015 (2025)

209. S. Alagar, H.K. Kim, J.H. Moon, J. Kim, C. S. Rout, H. S. Kim, S. M. Jeong "Synergistic Effects of Cu(OH)2-CuO Anodes for Multiple-Step Energy Storage of Li-Ion Microbatteries" Small, 21, e08106 (2025).

208. H. Hakkeem, S. Hegde, E. Baasanjav, J. Yesuraj,  J.K. Kim, J. S. Cho, C. S. Rout , S. M. Jeong, "Engineered conversion of TiN from 2D Ti₂C MXene: A tailored synthetic strategy for high-performance microsupercapacitor applications" Chemical Engineering Journal, 527, 171811 (2026).

207. P.C. Kumar, S.M. Jeong, R. Naik, C.S. Rout, “Rhombohedral 3R MoS2 polytype: A promising fundamental material for next generation device applications,” Small, 21, 2504644 (2025).

206. M. Ganesan, S. Alagar, S.M. Jeong, S. Piraman, “Fluorine Induced Oxygen Vacancy Created MnV LDH Nanoflower Cathode for Planar Hybrid Supercapacitors,” ACS Appl. Nano Mater., 8, 14531–14546 (2025).

205. H.Y. Seo, A.Y. Jo, T.G. Senthamaraikannan, Y.C. Kang, S.M. Jeong, D.H. Lim, G.D. Park, “Engineering porous CNT microspheres with nickel sulfoselenide nanocrystals for high-performance potassium-ion batteries: electrochemical mechanisms and cycling stability,” Small Structures, 6, 2500222 (2025)

204. C.S. Rout, P. Shinde, J.S. Cho, M.A. Belgami, S.M. Jeong, “Halide perovskites for supercapacitors and photosupercapacitors: recent developments and future perspectives,” Small, 21, 2503138 (2025)

203. E.M. Kim, Y.Y. Li, B. Jin, S.M. Jeong, “Innovative approaches to utilizing high-entropy oxide materials in lithium-ion batteries,” Small, 21, 2503776 (2025)

202.  J.S. Lee, G.H. Oh, C. Cho, N. Kim, R. Saroha, S.M. Jeong, J.O. Shim, D.S. Jung, G.D. Park, YU. C. Kang, J.S. Park, J.S. Cho, “Pitch-derived carbon-coated hierarchical porous microspheres constituted of zeolitic imidazolate framework-8 derived hollow N-doped carbon nanocages and Si nanospheres for high-performance Li–ion battery anodes,” Small Structures, 6, 2500067 (2025)

201. M.A. Belgami, A.S. Shajahan, E. Baasanjav, V. Ankalgi, B. Chakraborty, S.M. Jeong, C.S. Rout, “Experimental and theoretical investigations on magneto-electrochemical oxygen evolution reaction of CoFeP nanorods,” Adv. Mater. Interfaces, 12, e00321 (2025)

200. H. Jeong, J. Lee, K.H. Chae, S. Kwak, Y.H. Lee. D.H. Jeong, S.M. Jeong, A. Byeon, “Optimized amounts of excess Li in cation-disordered rocksalt cathode assisted by carbon nanotubes,” J. Mater. Chem. A., 13, 25321 (2025)

199. G.Sahoo , S.M.Jeong, C.S.Rout, "2D borophene: An emerging material for supercapacitor applications", Dalton Trans., 54,10847–10861 (2025)

198. S.Alagar,  J.Kim,  E.J.Shin, Alex Ditter, D.A. Shapiro, N.Kim, W.G.Hong, H.S.Kim, Y.S.Yu, G.D.Park, S.M.Jeong, "Dual-phase modulation via Mo doping and Li3PO4 coating for stabilized LiNi0.9Mn0.07Co0.02Al0.01O2 cathodes in high-energy lithium-ion batteries", J. Mater. Chem. A, 13, 20660 (2025)

197. M.Pathak, S.M.Jeong, C.S.Rout , "Graphene hybrids for supercapacitor applications", Chem. Commun.,61, 8803 (2025)

196. V.Ankalgi, M.A.Belgami, M.Sahoo, D.Mishra, E.Baasanjav, K.Pradhan, S.M.Jeong, C.S.Rout, "Influence of Low Magnetic Fields on Hydrogen Evolution Reaction Performance of NiCoP Electrocatalysts", ChemPhysChem 26, e202500004 (2025)

195. H.J.Yoo,  E.M.Kim, S. M.Jeong, "SiOx/C composite spheres as an anode material for high-performance lithium-ion batteries", Nanoscale,17, 13818-13827 (2025)

194. Y.Liu, M.X.Li, H.B.Lim, S.M.Jeong, H.W.Kim, J.K.Kim, J.H.Ahn , "Redox-Active Interlayer with Gradient Adsorption and Catalytic Conversion Functionality for High-Sulfur-Loading Lithium-Sulfur Batteries", Small Struct. 2500178 (2025)

193. S.G. Kim, S.JWoo, S.G. Byun, H.K.Kim, H.S.Kim, S.M.Jeong,D.J.Lee, "Seaweed-Inspired NH4V4O10-Ti3C2Tx MXene/Carbon Nanofibers for High-Performance Aqueous Zinc-Ion Batteries", Energy Environ. Mater. 8, e12857 (2025)

192. Namsheer K, Mohammed Kenz K T, S.Lakshmy, C.S.Sharma, S.M.Jeong, C.S.Rout, "CarbonNanotubeInterconnectedPolypyrrole@E-MXene Organic-InorganicHybridsforInterdigitatedIn-Plane SupercapacitorApplications", Adv.Mater.Technol. ,10,2401838 (2025)

191. S.W.Cho, H.H.Choi, T.G.Senthamaraikannan, D.H.Lim, G.D.Park, C.Y Cho, S.M.Jeong, R.Saroha, J.S.Cho, "Hierarchical porous one-dimensional N-doped C framework comprising ultrafine Mo2C catalysts for stable Na/K–Se batteries: Experimental and theoretical investigations", Chemical Engineering Journal, 512,162456 (2025)

190. E. Baasanjav, S.R.KA, H.Hakkeem, C.S.Rout, S. M.Jeong ,"High-performance asymmetric supercapacitors based on 2D MXene/NiCoP hybrid and ZIF derived porous nanocarbon", Journal of Materials Science & Technology, 228,42-53(2025)

189. S. Radhakrishnan, M.Monisha, S.R. KA, M. Saxena, S. M.Jeong, C.S. Rout, "Three-Dimensional VTe 2 /MXene/CNT Ternary Architecturesfor the Development of High PerformanceMicrosupercapacitors",Adv. Sustainable Syst.  9, 2400529(2025)

188.  J.Chen,  X.Wang, Z. Deng, E. M. Kim,  S. M. Jeong , “Facile synthesis of Si/C composites for high-performance lithium-ion battery anodes”, Nanoscale,17,6049–6057  (2025)

187.  P. Siddu, Sree Raj K A., S. Radhakrishnan, S.M. Jeong, C.S. Rout, “3D ternary hybrid of VSe2/e-MXene/CNT with a promising energy storage performance for high performance Asymmetric Supercapacitor,” Batteries & Supercaps, 8, e202400466 (2025)

186. S. Hegde, H. Kakkeem, S. Alagar, E. Baasanjav, C.S. Rout, S.M. Jeong, “Laser-driven engineering of modulated structural defects in Nb2CTx MXene-rGO based flexible microsupercapacitors for energy storage application,” J. Energy Storage, 111, 115330 (2025)

185. Sree Raj K A, M. Hwang, S. Alagar, S. Choi, C.S. Rout, S.M. Jeong, H.S. Park, “MXenes for hybrid metal-ion storage and desalination,” J. Energ. Chem., 103, 624-656 (2025)

184. Y.J. Yang, S.J. Shin, H.J. Yoo, E.M. Kim, S.M. Jeong, “Enhancing lithium-ion battery performance with Ni1−xFexS-biocarbon composites: Improving cycle stability and rate capability through multilayered biocarbon nanosheet formation and Fe doping,” Int. J. Energ. Res., 4338463 (2024)

183. J.K. Kim, J. Ryu, C. Kang, J. Park, J. Kim, J.S. Cho, D.W. Kang, S.M. Jeong, “Self-charging integrated energy modules employing perovskite photovoltaics and lithium sulfur battery: A record photoelectric storage efficiency of 14.6%,” J. Energy Storage, 102, 114149 (2024)

182. C. Kim, S.M. Jeong, J.K. Kim, “Ionic-liquid-supported organic radical-impregnated porous carbon nanofiber electrode for high performance organic radical batteries,” ACS Appl. Energ. Mater., 7, 7633-7639 (2024)

181. E.M. Jin, J. Han, G.T. Kim, G. Park, D.H. Baek, H. Li, M.Y. Cui, B. Jin, S.M. Jeong, J.K. Kim, “Sulfur/reduced graphite oxide and dual-anion solid polymer-electrolyte integrated structure for high-loading practical all-solid-state lithium–sulfur battery,” NPG Asia Materials, 16, 47 (2024)

180. M.A. Kelgami, A. Patra, S.M. Jeong, C.S. Rout, “Exploring the synergy of magnetism and electrocatalysis: A comprehensive review on mechanism, recent developments and future perspectives,” J. Mater. Chem. A, 12, 24005 (2024)

179. Namsheer K., G.Sanyal, K.Pramoda, B.Chakraborty, J.S.Cho, S.M.Jeong, C.S.Rout "2D/2D Molybdenum Sulfo Selenides/Black Phosphorus Heterostructures for Supercapacitors and Light-Driven Hydrogen Generation Applications", Adv. Sustainable Syst. , 8, 2300572 (2024)

178. H.S. Jeong, G. Sahoo, S.M. Jeong, “A novel nickel cobalt sulfide-indium (hydroxy) sulfide [NiCo2S4@In(OH)xSy] composites for LAGP-based all-solid-state lithium-ion capacitors,” Appl. Surf. Sci., 670, 160622 (2024)

177. S.Radhakrishnan, S.Lakshmy, K.A.Sree Raj, B.Chakraborty, J.S.Cho, S.M.Jeong, C.S.Rout, "Facile and scalable fabrication of flexible microsupercapacitor based on boron modified 2D/2D 1 T MoS2/MXene hybrids",J.Energy Storage,99, 113478 (2024)

176. C. Debbarma, S. Radhakrishnan, S. M. Jeong, C. S. Rout,"A comprehensive review on advanced supercapacitors based on transition metal tellurides: from material engineering to device fabrication",J. Mater. Chem. A,20, 2310120(2024)

175. D.J. Lee, H.S. Kim, S. M. Jeong, "Unveiling the Future of Li-Ion Batteries: Real-Time Insights into the Synthesis of Advanced Layered Cathode Materials",ACS Energy Lett., 9, 4255−4264(2024)

174. M.Pathak, P.Mane, B.Chakraborty,J.S.Cho, S.M.Jeong, C.S.Rout, "Construction of Nickel Molybdenum Sulfide/Black Phosphorous 3D Hierarchical Structure Toward High Performance Supercapacitor Electrodes", Small ,20, 2310120(2024)

173.   S.R.K. Anil, S.Radhakrishnan, N.Kuniyil, J.S.Cho, S.M.Jeong, C.S.Rout "Elucidating the Energy Storage Performance of 2D Metallic Vanadium Ditelluride/Carbon Nanotube for Next-Generation Asymmetric Supercapacitors Using Emerging MoSSe/Carbon Nanotube", Adv. Energy Sustainability Res., 5, 2300265(2024)

172. G. Sahoo, T.G.Senthamaraikannan, H.S.Jeong, P.Bandyopadhyay, D.H. Lim, S.K.Nayak, S.M. Jeong, "An effective lithium incorporation strategy to boost the charge-storage capacity of bimetallic metal–organic frameworks with theoretical insights and solid-state lithium-ion capacitors", J. Mater. Chem. A,  12, 15019–15035(2024)

171.  P. Bandyopadhyay , T. G. Senthamaraikannan, E. Baasanjav , D.H.  Lim, S. M. Jeong, "Peanut-like hierarchical carbon nanofibers encapsulated carbon-coated NiCo/NiCoO hollow spheres as high-performance anode materials for Li-ion batteries and theoretical insights", Carbon,  228,119363(2024)

170. A. Patra, S. Hegde, V. Mahamiya, B. Chakraborty, S.M. Jeong, C.S. Rout, "Phase-Engineered Tin Sulfides and Their Heterostructure with Ti3C2Tx MXene for All-Solid-State Flexible Asymmetric Supercapacitors", ACS Appl. Nano Mater., 7, 11666−11679 (2024)

169. C.S. Rout, P.V. Shinde, A. Patra, S.M. Jeong, "Recent Developments and Future Perspectives of Molybdenum Borides and MBenes", Adv. Sci., 11, 2308178 (2024)

168. S. Alagar, C. Karuppiah, S.M. Jeong, R. Mariappan, S. Piraman, C.C. Yang, “Synergistic control of cohesive and adhesive forces in anchored porous CoMn2O4 for superior reversible lithium-ion storage and high energy-power density,” J. Energy Storage, 88, 111378 (2024)

167. Yixin Liu, G. Sahoo, E.M. Kim, S.M. Jeong, “Copper–Iron Selenides Nanoflakes and Carbon Nanotubes Composites as an Advanced Anode Material for High-Performance Lithium-Ion Batteries”, Adv. Energy Sustainability Res., 2300234 (2024)

166.  Pavithra Siddu N. K., S.M. Jeong, C.S. Rout, "MXene–carbon based hybrid materials for  supercapacitor applications," Energy Adv., 3, 341-365 (2024)

165.  X.L. Wang, E.M. Kim,  T.G. Senthamaraikannan, D.H. Lim, S.M. Jeong, "Porous hollow high entropy metal oxides (NiCoCuFeMg)3O4 nanofiber anode for high-performance lithium-ion batteries," Chem. Eng. J., 484, 149509 (2024) 

164.   Y.J. Yang, P. Bandyopadhyay, A. Karmakar, S.M. Jeong, "Interconnected nickel cobalt vanadate quasi-spheres as an efficient and stable oxygen evolution electrocatalyst in alkaline media," J. Ind. Eng. Chem., 131, 441-448 (2024). 

163.   P. Bandyopadhyay, T.G. Senthamaraikannan, D.H. Lim, G. Sahoo, E. Baasanjav, J.K. Kim, S.M. Jeong, "Hierarchically nanofibers embedded with NiMnS nanocrystals as anode for high-performance lithium-ion batteries: Experimental and theoretical studies," Chem. Eng. J., 481, 148578 (2024)

162.   S. Radhakrishnan, A. Patra, G. Manasa, M.A. Belgami, S.M. Jeong, C.S. Rout, "Borocarbonitride-Based Emerging Materials for Supercapacitor Applications: Recent Advances, Challenges, and Future Perspectives," Adv. Sci., 11, 2305325 (2024)

161.   H.S. Jeong, G. Sahoo, S.M. Jeong, "Surface-engineered carbon nanofibers enriched with metallic particles for effective bimetallic MOF formation toward hybrid supercapacitors," J. Energy Storage, 73, 109260 (2023).

160.   M. Pathak, S.M. Jeong, C.S. Rout, “Spinel NiCo2O4 based hybrid materials for supercapacitors: Recent developments and future perspectives,” J. Energy Storage, 73, 108881 (2023).

159.   C. Kim, S.M. Jeong, J.K. Kim, "Ionic-Liquid-Supported Organic-Radical-Impregnated Porous Carbon Nanofiber Electrode for High-Performance Organic Radical Batteries," ACS Applied Energy Materials (2023)

158.   Y.J. Shin, H.S. Jeong, E.M. Kim, T.Y. Kim, S.M. Jeong, “Metal oxides decorated carbon nanotube freestanding electrodes for high performance of lithium-sulfur batteries,” Korean Chem. Eng. Res., 61, 1-13 (2023).

157.   H. Liu, X. Yang, B. Jin, M. Cui, Y. Li, Q. Li, L. Li, Q. Sheng, X. Lang, E.M. Jin, S.M. Jeong, Q. Jiang, “Coordinated immobilization and rapid conversion of polysulfide enabled by a hollow metal oxide/sulfide/nitrogen-doped carbon heterostructure for long-cycle-life lithium-sulfur batteries,” Small, 19, 2300950 (2023)

156.   P. Bandyopadhyay, T.G. Senthamaraikannan, E. Baasanjav, A. Karmakar. Y.S. Park, D.H. Lim, S.M. Jeong, "Experimental and Theoretical Insights of Anion Regulation in MOF-Derived Ni-Co-Based Nanosheets for Supercapacitors and Anion Exchange Membrane Water Electrolyzers" ACS Appl. Mater. Interfaces, 15, 32436-32452 (2023).

155.   G. Sahoo, H.S. Jeong, S.R. Polaki, S.M. Jeong, “Vertical graphene nanosheets as interface current-collector for enhanced charge-storage kinetics of bimetallic MOF nano-rods and asymmetric solid-state supercapacitors,” J. Energy Storage, 68, 107824 (2023).

154.   J. Ryu, J. Bahadur, S. Hayase, S.M. Jeong, D.W. Kang, “ Efficient and stable energy conversion using 2D/3D mixed Sn-perovskite photovoltaics with antisolvent engineering,” Energy, 278, 127917 (2023).

153.   G. Sahoo, H.S. Jeong, S.M. Jeong, “Ligand-Controlled Growth of Different Morphological Bimetallic Metal–Organic Frameworks for Enhanced Charge-Storage Performance and Quasi-Solid-State Hybrid Supercapacitors," ACS Appl. Mater. Interfaces, 15(17) 21097–21111 (2023).

152.   E. Baasanjav, T. G. Senthamaraikannan, P. Bandyopadhyay, D.H. Lim, S.M. Jeong, “Quasi-solid-state hybrid supercapacitors assembled by Ni-Co-P@C/Ni-B nanoarrays and porous carbon nanofibers with N-doped C nanocages," Chem. Eng. J., 466, 143064 (2023).

151.   A. Karmakar, T.G. Senthamaraikannan, E. Baasanjav, P. Bandyopadhyay, B. Jin, Y.S. Park, D.H. Lim, S.M. Jeong, "Surface hydroxyl group-enriched nickel cobalt molybdate hydrate for improved oxygen evolution activity in an anion exchange membrane water electrolyzer", Appl. Catal. B: Environmental, 328, 122504 (2023).

150.   J. Bahadur, J. Ryu, D.G. Lee, J. Hong, S. Hayase, J.S. Cho, S.M. Jeong, D.W. Kang, "In-situ surface defects passivation with small carbon chain molecules for highly efficient, air-processed inorganic CsPbI2Br perovskite photovoltaics", Appl. Surf. Sci., 614, 156229 (2023).

149.   X.L. Wang, E.M. Jin, G. Sahoo, S.M. Jeong, "High-Entropy Metal Oxide (NiMnCrCoFe)3O4 Anode Materials with Controlled Morphology for High-Performance Lithium-Ion Batteries", Batteries, 9(3), 147 (2023).

148.   J. Chen, X.L. Wang, E.M. Jin, S.M. Jeong, "Synthesis of carbon-coated FeOx nanoparticles via spray solidification as anode materials for high-performance lithium-ion batteries", Appl. Surf. Sci., 611(A), 155647 (2023).

147.   E.M. Jin, M.S. Kim, T.Y. Kim, B.J. Shin, J.H. Moon, S.M. Jeong, "Upcycling of silicon scrap collected from photovoltaic cell manufacturing process for lithium-ion batteries via transferred arc thermal plasma", Energy, 262(B), 125447 (2023).

146.   S. Ghosh, S.R. Polaki, A. Macelli, L.H. Singh, C.S. Casari, S. Barg, S.M. Jeong, K. Ostrikov, “Nanoparticle-enhanced multifunctional nanocarbons—recent advances on electrochemical energy storage applications”, J. Phys. D: Appl. Phys., 55, 413001 (2022).

145.   S. Sahoo, G. Sahoo, S.M. Jeong, C.S. Rout, “A review on supercapacitors based on plasma enhanced chemical vapor deposited vertical graphene arrays,” J. Energy Storage, 53, 105212 (2022).

144.   A. Karmakar, H.S. Chavan, S.M. Jeong, J.S. Cho, “Mixed Transition Metal Carbonate Hydroxide-Based Nanostructured Electrocatalysts for Alkaline Oxygen Evolution: Status and Perspectives”, Adv. Energy Sustainability Res., 3(9), 2200071 (2022).

143.   R. Saroha, Y.H. Seon, B. Jin, Y.C. Kang, D.W. Kang, S.M. Jeong, J.S. Cho, “Self-supported hierarchically porous 3D carbon nanofiber network comprising Ni/Co/NiCo2O4 nanocrystals and hollow N-doped C nanocages as sulfur host for highly reversible Li–S batteries”, Chem. Eng. J., 446, 137141 (2022).

142.   K.C. Nam, Y.H. Seon, P. Bandyopadhyay, J.S. Cho, S.M. Jeong, "Porous nanofibers comprising hollow Co3O4/Fe3O4 nanospheres and nitrogen-doped carbon derived by Fe@ZIF-67 as anode materials for lithium-ion batteries", Int J Energy Res., 46(7), 8934-8948 (2022).

141.   J. Chen, P. Bandyopadhyay, E.M. Jin, S.M. Jeong, “Rationally designed hierarchical tree-like Fe-Co-P@Ni(OH)2 hybrid nanoarrays for high energy density asymmetric supercapacitors”, Appl. Surf. Sci., 588, 152858 (2022).

140.   K. Sharma, Y.K. Park, A.K. Nadda, P. Banerjee, P. Singh, P. Raizada, F. Banat, G. Bharath, S.M. Jeong, S.S. Lam, “Emerging chemo-biocatalytic routes for valorization of major greenhouse gases (GHG) into industrial products: A comprehensive review,” J. Ind. Eng. Chem., 109, 1-20 (2022).

139.   Y.J. Shin, W.Y. Lee, T.Y. Kim, S.G. Moon, E.M. Jin, S.M. Jeong, "Preparation and Electrochemical Properties of Freestanding Flexible S/CNT/NiO Electrodes for Li-S Batteries", Korean Chem. Eng. Res., 60(2), 184-192 (2022).

138.   D.W. Hwang, J.H. Lee, S.M. Jeong, "Electrochemical Deposition Characteristics of Ca2+ on Cu Wire Electrode  in CaCl2 Molten Salt", Korean Chem. Eng. Res., 60(2), 175-183 (2022).

137.   G. Saeed, A. Alam, P. Bandyopadhyay, S.M. Jeong, S. Lim, “Metal-organic framework-derived (Mn-1)CoxSy @ (Ni-Cu)OHs marigold flower-like core@shell as cathode and (Mn-Fe10)Sx@graphene-foam as anode materials for ultra-high energy-density asymmetric supercapacitor,” Mater. Today Chem., 23, 100758 (2022).

136.      O.H. Kwon, J. Ryu, J.H. Lee, H.W. Kim, J.S. Cho, S.M. Jeong, D.W. Kang, J.K. Kim, “Stretchable self-charging energy integrated device of high storage efficiency”, J. Power Sources, 525, 231079 (2022).

135.      C.S. Kim, J.S. Lee, R. Saroha, Y.B. Park, Y.C. Kang, D.W. Kang, S.M. Jeong, J.S. Cho, “Porous nitrogen-doped graphene nanofibers comprising metal organic framework-derived hollow and ultrafine layered double metal oxide nanocrystals as high-performance anodes for lithium-ion batteries,” J. Power Sources, 523, 231030 (2022).

134.   X.L. Wang, E.M. Jin, J. Chen, P. Bandyopadhyay, B. Jin, S.M. Jeong, "Facile in situ synthesis of Co(OH)2-Ni3S2 nanowires on ni foam for use in high-energy-density supercapacitors," Nanomaterials, 12, 34(2022).

133.   J.H. Choi, S. Choi, J.S. Cho, H.K. Kim, S.M. Jeong, "Efficient synthesis of high areal capacity Si@graphite@SiC composite anode material via one-step electro-deoxidation," J. Alloys Compd., 896, 163010(2022).

132.   E. Baasanjav, P. Bandyopadhyay, J.S. Cho, S.M. Jeong, "Hierarchical MCo2O4@Ni(OH)2 (M = Zn or Mn) Core@Shell Architectures as Electrode Materials for Asymmetric Solid-State Supercapacitors," J. Energy Storage,  44, 103345(2021).

131.   M.H. Lee, P. Bandyopadhyay, E.M. Jin, E. Baasanjav, D.W. Kang, S.M. Jeong, "Cathode of Zn-Ni Layered Double Hydroxide Nanosheet Arrays Wrapped with a Porous NiMoSx Shell and Anode of 3D Hierarchical Nitrogen-Doped Carbon for High-Performance Asymmetric Supercapacitors," ACS Appl. Energy Mater., 4, 9166-9177(2021)

130.   J.S. Lee, R. Saroha, S.H. Oh, D.H. Shin, S.M. Jeong, J.K. Kim, J.S. Cho, “Rational Design of Perforated Bimetallic (Ni, Mo) Sulfides/N‐doped Graphitic Carbon Composite Microspheres as Anode Materials for Superior Na‐Ion Batteries,” Small Methods, 2100195(2021).

129.   R. Saroha, J.H. Oh, J.S. Lee, Y.C. Kang, S.M. Jeong, D.W. Kang, J.S. Cho, “Hierarchically porous nanofibers comprising multiple core–shell Co3O4@graphitic carbon nanoparticles grafted within N-doped CNTs as functional interlayers for excellent Li–S batteries,” Chem. Eng. J., 426, 130805(2021).

128.   E. Baasanjav, P. Bandyopadhyay, G. Saeed, S. Lim, S.M. Jeong, “Dual-ligand modulation approach for improving supercapacitive performance of hierarchical zinc–nickel–iron phosphide nanosheet-based electrode,” J. Ind. Eng. Chem., 99, 299-308(2021).

127.   M. Sposob, J.Y. Nam, J.G. Park, T.H Kim, Y. H. H, S. M. Jeong, Y. M Yun, "Starvation pretreatment enhances sulfidogenic operation of two-stage anaerobic digestion system for biogas production with low H2S content," J. Cleaner  Production, 290, 125166(2021).

126. J. Chen, X.L. Wang, E.M. Jin, S.G. Moon, S.M. Jeong, "Optimization of B2O3 coating process for NCA cathodes to achieve long-term stability for application in lithium ion batteries," Energy, 222, 119913(2021).

125.   P. Bandyopadhyay, G. Saeed, N.H. Kim, S.M. Jeong, J.H. Lee, "Fabrication of hierarchical Zn-Ni-Co-S nanowire arrays and graphitic carbon nitride/graphene for solid-state asymmetric supercapacitors," Appl. Surf. Sci., 542, 148564(2021).

124.   M.S. Jo, J.S. Lee, S.Y. Jeong, J.K. Kim, Y.C. Kang, D.W. Kang, S.M. Jeong, J.S. Cho, "Golden Bristlegrass-Like Hierarchical Graphene Nanofibers Entangled with N-Doped CNTs Containing CoSe2 Nanocrystals at Each Node as Anodes for High-Rate Sodium-Ion Batteries," SMALL, 24, 2003391(2020).

123   W.Y. Lee, E.M. Jin, J.S. Cho, D.W. Kang, S.M. Jeong, “Freestanding flexible multilayered sulfur-carbon nanotubes for lithium-sulfur battery cathodes,” Energy, 212, 118779(2020).

122.   X.L. Wang, J. Chen, B. Jin, Q. Jiang, E.M. Jin, S.M. Jeong, “Electrochemical performance of electrospun lotus–root–structure porous multichannel carbon nanotubes for lithium–sulfur battery applications,” J. Electroanal. Chem., 878, 114564(2020).

121.   S. Ghosh, S. Barg, S.M. Jeong, K. Ostrikov, “Heteroatom-doped manocarbons for high-performance supercapacitors,” Adv. Energy Mater., 10, 2001239(2020).

120.   O.H. Kwon, M.S. Jo, B. Gu, J.H. Oh, S.H. Oh, Y.C. Kang, J.K. Kim, S.M. Jeong, J.S. Cho, “Porous SnO2/C nanofiber anodes and LiFePO4/C nanofiber cathodes with a wrinkle structure for stretchable lithium polymer batteries with high electrochemical performance,” Adv. Sci., 7, 2001358(2020).

119.   C. Dong, W. Gao, B. Jin, W. Zhang, Z. Wen, E.M. Jin, S.M. Jeong, Q. Jiang, “Hydrangea-like microspheres as anodes toward long-life and high-capacity lithium storage,” J. Mater. Sci., 55, 12151-12164(2020).

118.   J. Mohanta, H.J. Kim, S.M. Jeong, J.S. Cho, H. J. Ahn, J.H. Ahn, J.K. Kim, “High-performance quasi-solid-state flexible sodium metal battery: Substrate-free FeS2-C composite fibers cathode and polyimide film-stuck sodium metal anode,” Chem. Eng. J., 391, 123510(2020).

117.   J.H. Choi, H.K. Kim, E.M. Jin, M.W. Seo, J.S. Cho, R. V. Kumar, S.M. Jeong, “Facile and scalable synthesis of silicon nanowires from waste rice husk silica by the molten salt process,” J. Hazardous Materials, 399, 122949(2020).

116.   M.W. Seo, H.M. Jeong, W.J. Lee, S.J. Yoon, H.W. Ra, Y.K. Kim, D.Y. Lee, S.W. Han, S.D. Kim, J.G. Lee, S.M. Jeong, “Carbonization characteristics of biomass/coking coal blends for the application of bio-coke,” Chem. Eng. J., 394, 124943(2020).

115.   H.H. Nersisyan, Y.J. Lee, J.H. Lee, S.M. Jeong, “Combustion synthesis of C and SiC nanoparticles from Na2CO3-Si mixtures: Characterization and electrochemical performance,” Int. J. Self-Propagating High-Temperature Synthesis, 29, 65-76(2020).

114.   J. Mohanta, D.W. Kang. J.S. Cho, S.M. Jeong, J.K. Kim, “Stretchable electrolytes for stretchable energy storage systems – Recent developments,” Energy Storage Mater., 28, 315-324(2020).

113.   B. Parida, S. Yoon, J. Ryu, S. Hayase, S.M. Jeong, D.W. Kang, “Boosting the conversion efficiency over 20 % in MAPbI3 perovskite planar solar cells by employing solution-processed aluminum-doped nickel oxide hole collector,” ACS Appl. Mater. Interfaces, 12, 2298-22970(2020).

112.   J. Ryu, S. Yoon, J. Park, T.W Lee, S.M. Jeong, D.W. Kang, “Nickel oxide/carbon nanotube composites for enhanced charge transport layer in planar perovskite solar cells,” Appl. Surf. Sci., 516, 146116(2020).

111.   Y. Seo, S.R. Ha, S. Yoon, S.M. Jeong, H. Choi, D.W. Kang, “Dynamic casting in combination with ramped annealing process for implementation of inverted planar Ag3BiI6 rudorffite solar cells,” J. Power Sources, 453, 227903(2020).

110.   J.K Kim, S.M. Jeong, “Physico-electrochemical properties of carbon coated LiFePO4 nanoparticles prepared by different preparation method,” Appl. Surf. Sci., 505, 144630(2020).

109.   J.H. Lee, W.S. Choi, H.Y. Woo, H. Nersisyan, J. Lee, E.M. Jin, S.M. Jeong, “Polysiloxanes-derived silicon nanoparticles for Li-ion battery,” J. Energy Storage, 27, 101141, 1-12(2020).

108.   K. Zhu, Z. Zhu, Z. Wen, B. Jin, H. Li, E.M. Jin, S.M. Jeong, Q. Jiang, “3D flower-like Co1-xS/MoS2 composite for long-life and high-rate lithium storage,” J. Energy Storage, 27, 101135, 1-7(2020).

107.   B. Parida, S. Yoon, S.M. Jeong, J.S. Cho, J.K. Kim, D.W. Kang, “Recent progress on cesium lead/tin halide-based inorganic perovskites for stable and efficient solar cells: A review,” Sol. Energy Mater. Sol. Cells, 204, 110212(2020).

106.   J. Mohanta, O.H. Kwon, J.H. Choi, Y.M. Yun, J.K. Kim, S.M. Jeong, “Preparation of highly porous PAN-LATP membranes as separators for lithium ion batteries,” Nanomaterials, 9, 1581(2019).

105.   S. Yoon, S.R. Ha, T. Moon, S.M. Jeong, T.J. ha, H. Choi, D.W. Kang, “Carbon nanotubes embedded PEDOT: PSS hybrid hole collector for inverted planar perovskite solar cells,” J. Power Sources, 435, 226765(2019).

104.   H. Li, T. Yang, B. Jin, M. Zhao, E.M. Jin, S.M. Jeong, Q. Jiang, “Enhanced reversible capability of a macroporous ZnMn2O4/C microsphere anode with a water-soluble binder for long-life and high-rate lithium-ion storage,” Inorg. Chem. Front., 6, 1535-1545(2019).

103.   J.H. Oh, M.S. Cho, S.M. Jeong, C. Cho, Y.C. Kang, J.S. Cho, “New synthesis strategy for hollow NiO nanofibers with interstitial nanovoids prepared via electrospinning using camphene for anodes of lithium-ion batteries,” J. Ind. Eng. Chem., 77, 76-82(2019).

102.   S.Y. Jeong, D.W. Kang, J.K Kim, S. Ghosh, S.M. Jeong, Y.C. Kang, J.S. Cho, “Multi-channel-contained few-layered MoSe2 nanosheet/N-doped carbon hybrid nanofibers prepared using diethylenetriamine as anodes for high-performance sodium-ion batteries,” J. Ind. Eng. Chem., 75, 100-107(2019).

101.   Y. Kwon, J.H. Park, S.M. Kang, G.D. Nam, J.W. Lee, J.H. Kim, D. Kim, S.M. Jeong, J.H. Yu, J. H. Joo, “Breakthrough strategy for improving the oxygen permeability in the zirconia-based dual-phase membrane,” Energ. Environ. Sci., 12, 1358-1368(2019).

100.   S.H. Oh, M.S. Jo, S.M. Jeong, Y.C. Kang, J.S. Cho, “Hierarchical yolk-shell CNT-(NiCo)O/C microspheres prepared by one-pot spray pyrolysis as anodes in lithium-ion batteries,” Chem. Eng. J., 368, 438-447 (2019)

99.   S.H. Lee, T.H. Lee, S.M. Jeong, J.M. Lee, “Economic analysis of a 600MWE ultra supercritical circulating fluidized bed power plant based on coal tax and biomass co-combustion plans,” Renew. Energy, 138, 121-127(2019).

98.   S. Ghosh, S.R. Polaki, G. Sahoo, E.M. Jin, M. Kamruddin, J.S. Cho, S.M. Jeong, “Designing metal oxide-vertical graphene nanosheets structures for 2.6 V aqueous asymmetric electrochemical capacitor,” J. Ind. Eng. Chem., 72, 107-116(2019).

97,   M.S. Jo, S. Ghosh, S.M. Jeong, Y.C. Kang, J.S. Cho, “Coral-like yolk-shell-structured nickel oxide/carbon composite microspheres for high-performance anodes in Li-ion storage,” Nano-Micro Lett., 11:3, 1-18(2019).

96.   S. Ghosh, W.D. Yong, E.M. Jin, S.R. Polaki, X.L. Wang, S.M. Jeong, H. Jun, “Mesoporous engineered carbon nanofiber for improved supercapacitor performance,” Korean J. Chem. Eng., 36, 312-320 (2019).

95.   Y.X. Dong, B. Jin, S.H. Lee, X.L. Wang, E.M. Jin, S.M. Jeong, “One-step hydrothermal synthesis of Ag decorated TiO2 nanoparticles for dye-sensitized solar cell application,” Renew. Energy, 135, 1207-1212(2019).

94.   M.S. Jo, E.M. Jin, J.S. Cho, S.M. Jeong, “Improving of the photovoltaic characteristic of dye-sensitized solar cells using photoelectrode with electrospun porous TiO2 nanofiber,” Nanomaterials, 9, 95(2019).

93.   Y.X. Dong, E.M. Jin, S.M. Jeong, “Application of metal oxide nanofiber for improving photovoltaic properties of dye-sensitized solar cells,” Clean Technol., 24, 249-254(2018).

92.    E.M. Jin, S.M. Jeong, “Electrochemical properties of MnO2@HCS composite as supercapacitor electrode material,” Clean Technol., 24, 183-189 (2018).

91.   B.H. Park, S.M. Jeong, “Application of phase-field theory to model uranium oxide reduction behavior in electrolytic reduction process,” J. Nucl. Fuel Cycle Waste Techonol., 16, 291-299(2018)

90.   S. Ghosh, S.M. Jeong, S.R. Polaki, “A review on metal nitrides/oxynitrides as an emerging supercapacitor electrode beyond oxide,” Korean J. Chem. Eng., 35, 1389-1408(2018)

89.   J. Park, B. Lee, P. Shi, H. Kwon, S M. Jeong, H. Jun “Methanol metabolism and archaeal community changes in a bioelectrochemical anaerobic sequencing batch reactor with copper-coated graphite cathode,” Bioresour. Technol., 259, 398-406(2018).

88.   S. Ghosh, S.R. Polaki, M. Kamruddin, S.M. Jeong, K. Ostrikov, “Plasma-electric field-controlled growth of oriented graphene for energy storage applications,” J. Physics: D, 51, 145303(2018).

87.   B.H. Park, M.W. Lee, S.M. Jeong, “Electrochemical Behavior of Chalcogen and Halogen Fission Products in Pyro-electrochemical Reduction Process,” J. Appl. Electrochem., 48, 739-745(2018).

86.   D.Y. Wan, E. Baasanjav, H.B. Jun, B. Jin, E.M. Jin, S.M. Jeong, “Effect of metal (Mn, Ti) doping on NCA cathode materials for lithium ion batteries,” J. Nanomaterials, 2018, Article ID 8082502, 1-9(2018).

85.   Z.Y. Fan, E.M. Jin, S.M. Jeong, “Enhanced electrochemical properties of NCA cathode materials for lithium ion battery by doping effect,” Kor. Chem. Eng. Res., 55, 861-867(2017)

84.   T. Yang, W. Zhang, L. Li, B. Jin, E.M. Jin, S.M. Jeong, Q. Jiang, “In-situ synthesized ZnFe2O4 firmly anchored to the surface of MWCNTs as a long-life anode material with high lithium storage performance,” Appl. Surf. Sci., 425, 978-987(2017).

83.   E.M. Jin, J.G. Lim, S.M. Jeong, “Facile synthesis of graphene-wrapped CNT-MnO2 nanocomposites for asymmetric electrochemical capacitors,” J. Ind. Eng. Chem., 54, 421-427(2017).

82.   M.W. Lee, S.M. Jeong, “Pyro-electrochemical reduction of a mixture of rare earth oxides and NiO in LiCl molten salt,” Kor. Chem. Eng. Res., 55, 379-38 (2017).

81.   E.M. Jin, G.E. Lee, B.K. Na, S.M. Jeong., “Electrochemical properties of commercial NCA cathode materials for high capacity of lithium ion battery,” Kor. Chem. Eng. Res., 55, 163-169(2017).

80.   E.M. Jin, H.J. Lee, H.B. Jun, S.M. Jeong, “Electrochemical properties of α-Co(OH)2/graphene nano-flake thin film for use as a hybrid supercapacitor,” Korean J. Chem. Eng., 34, 885-891(2017).

79.   M.W. Lee, E.Y. Choi, S.C. Jeon, J. Lee, S.B. Park, S. Paek, M.F. Simpson, S.M. Jeong, “Enhanced electrochemical reduction of rare earth oxides in simulated oxide fuel via co-reduction of NiO in Li2O-LiCl salt,” Electrochem. Comm., 72, 23-26(2016).

78.   G.Y. Baek, S.M. Jeong, B.K. Na, “Synthesis and electrochemical characteristics of carbon Coated SiOx/ZnO composites by sol-gel method,” Clean Technol., 22, 308-315(2016).

77.   H.Y. Jeong, E.M. Jin, S M. Jeong, “Electrochemical properties of sulfur/carbon composite for lithium sulfur battery applications,” J. Ind. Sci. Technol. Inst., 30, 51-54(2016).

76.   E.M. Jin, H. Jeong, S.M. Jeong, “Hydrothermal carbon nanosphere (CNS) based CNS/S composite as a cathode material for lithium-sulfur batteries,” J. Nanosci. Nanotechnol., 16, 10475-1048 (2016).

75.   D. Rappleye, S.M. Jeong, M. Simpson, “Electroanalytical measurements of binary-analyte mixtures in molten LiCl-KCl eutectic: gadolinium (III)- and lanthanum (III)-chloride,” J. Electrochem. Soc., 163, B507-516(2016).

74.  H.J. Lee, E.M. Jin, S.M. Jeong, “Electrochemical properties of porous a-Co(OH)2 nano-flake film prepared by electro-deposition for supercapacitor,” Korean Chem. Eng. Res., 54, 157-162(2016).

73.   K.H. Jeong, H.J. Lee, M.F. Simpson S.M. Jeong, “Electrochemical synthesis of graphene/MnO2 nano-composite for application to supercapacitor electrode,” J. Nanosci. Nanotechnol., 16, 4620-4625(2016).

72.   M. Stika, D. Rappleye, S.M. Jeong, M.F. Simpson, “Development of on-line pyroprocessing for liquid thorium fueled reactors,” AIChE J., 62, 1236-1243(2016).

71.   E.M. Jin, S.M. Jeong, H.C. Kang, H.B. Gu, “Photovoltaic Effect of Metal-doped TiO2 Nanoparticles for Dye-sensitized Solar Cells,” ECS J. Solid State Sci. Technol., 5, Q109-Q114(2016).

70.   J.A. Shin, E.M. Jin, B.K. Na, H.B. Gu, W.L. Wang, S.M. Jeong, “Facile preparation and electrochemical properties of carbon-enfolded sulfur particles for Li-S battery application,” J. Electrochem. Soc., 163, A57-A61(2016).

69.   D. Rappleye, S.M. Jeong, M. Gonzalez, L.C. Hansen, M.F. Simpson, “Application of voltammetry to measurement of concentrations of multiple lanthanide ions in molten LiCl-KCl,” J. Nucl. Fuel Cycle Waste Technol., S, 29-38(2015).

68.   E.Y. Choi, S.M. Jeong, “Electrochemical processing of spent nuclear fuels: An overview of oxide reduction in pyroprocessing technology,” Progr. Nat. Sci., 25, 572-582(2015).

67.   E.M. Jin, J.Y. Park, H.B. Gu, S.M. Jeong, “Synthesis of SnO2 hollow fiber using kapok biotemplate for application in dye-sensitized solar cells,” Mater. Lett., 159, 321-324(2015).

66.   H.S. Ji, H.Y. Ryu, S.M. Jeong, M.F. Simpson, “Preparation of NdNi5 using an electrochemical reduction of a NiO-Nd2O3 mixture in molten LiCl,” J. Ind. Eng. Chem., 24, 259-265(2015).

65.   J.G. Lim, S.M. Jeong, “Preparation of La0.5Nd0.5Ni5 alloy by an electrochemical reduction in molten LiCl,” Korean Chem. Eng. Res., 53, 145-149(2015).

64.   H. Jeong, S.M. Jeong, “Electrochemical properties of graphene-vanadium oxide composite prepared by electro-deposition for electrochemical capacitors,” Korean Chem. Eng. Res., 53, 131-136(2015).

63.   D. Rappleye, S.M. Jeong, Michael F. Simpson “Application of multivariate analysis techniques to safeguards of the electrochemical treatment of used nuclear fuel,” Ann. of Nucl. Energy, 77, 265-272(2015).

62.   H.V. Ijije, R.C. Lawrence, N. Siambun, S.M. Jeong, D.A. Jewell, D. Hu, G.Z. Chen, “Electro-deposition and re-oxidation of carbon in carbonate-containing molten salts,” Faraday Discuss., 172, 105-116(2014).

61.   H.Y. Ryu, S.M. Jeong, “Determination of diffusion coefficients of Mg2+ ions from molten LiCl-KCl-MgCl2,” Asian J. Chem., 26, 4011-4014(2014).

60.   H.Y. Ryu, H.S. Ji, S.M. Jeong, M.F. Simpson, “Formation of Mg-Li alloy by electro-intercalation of Li+ ions on a solid Mg cathode in an eutectic LiCl-KCl salt,” J. Chem. Eng. Jpn., 47, 750-755(2014).

59.   E.M. Jin, Y.Y. Park, K.J. Hwang, H.B. Gu, S.M. Jeong, “Biotemplated Hybrid TiO2 Nanoparticle and TiO2-SiO2 Composites for Dye-Sensitized Solar Cells,” Mater. Lett., 131, 190-193(2014).

58.   E.M. Jin, J.Y. Park, X.G. Zhao, I.H. Lee, S.M. Jeong, H.B. Gu, “Photovoltaic properties of TiO2-ZrO2 fiber composite electrodes for dye-sensitized solar cells,” Mater. Lett., 126, 281-284(2014).

57.   H.M. Jeong, M.W. Seo, S.M. Jeong, B.K. Na, S.J. Yoon, J.G. Lee, W.J. Lee, “Pyrolysis kinetics of coking coal mixed with biomass under non-isothermal and isothermal conditions,” Bioresour. Technol., 155, 442-445(2014).

56.   S.H. Cho, S.M. Jeong, B.H. Lee, “Low temperature pyrolysis of polypropylene by using Co and Mo dispersed catalysts,” J. Ind. Sc. Technol. Inst., 27, 65-69(2013).

55.   K.M. Yang, Y.C. Kang, S.M. Jeong, Y.J. Choi, Y.S. Kim, “Electrochemical properties of spherical hollow composite powders with variations Li4Ti5O12/SnO2 ratios prepared by spray pyrolysis,” Int. J. Electrochem. Sci., 8, 11972-11983(2013).

54.   M.H. Kim, Y.C. Kang, S.M. Jeong, Y.J. Choi, Y.S. Kim, “Morphologies and electrochemical properties of 0.6Li2MnO3·0.4LiCoO2 composite cathode powder prepared by spray pyrolysis,” Mater. Chem. Physics, 142, 438-444(2013).

53.   K.H. Jeong, S.M. Jeong, “Enhanced capacitance of unexfoliated graphite oxide by coupled electro-deoxidation/functionalization in an alkali solution,” Electrochim. Acta, 108, 810-807(2013).

52.   H.S. Ji, H.Y. Ryu, S.M. Jeong, S.W. Cho, “Fast Electrochemical Synthesis of NdNi5 Hydrogen Storage Alloy in Molten Salt,” Chem. Lett., 42, 1182-1184(2013).

51.   K.H. Jeong, S.M. Jeong, “Electrochemical behavior of reduced graphene oxide in KOH solution,” J. Ind. Sc. Technol. Inst., 27, 49-54(2013).

50.   E.Y. Choi, J.K. Kim, H S. Im, I.K. Choi, S.H. Na, J.W. Lee, S. M. Jeong, J. M. Hur, “Effect of the UO2 form on the electrochemical reduction rate in a LiCl molten salt,” J. Nucl. Mater., 437, 178-187(2013).

49.   K.H. Jeong, H.M. Jeong, S.M. Jeong, K.Y. Jung, E.Y. Choi, Y.C. Kang, “Electro-deoxidation behavior of graphite oxide in aqueous solution,” J. Chem. Eng. Jpn, 46, 245-249(2013).

48.   H.Y. Ryu, Jeong, S.M. Jeong, Y.C. Kang, J.G. Kim, “Electrochemical carbon formation from a graphite anode in Li2O/LiCl molten salt,” Asian J. Chem., 25, 7019-7022(2013).

47.   J.B. Lee, S.N. Chun, K.B. Hur, S.M. Jeong, “Effect of H2SO4 concentration in washing solution on regeneration of commercial selective catalytic reduction catalyst,” Korean J. Chem. Eng., 29(2), 270-276(2012).

46.   H.S. Shin, J.M. Hur, S.M. Jeong, K.Y. Jung, “Direct electrochemical reduction of titanium dioxide in molten lithium chloride,” J. Ind. Eng. Chem., 18(1), 438-442 (2012).

45.   E.Y. Choi, I.K. Choi, J.M. Hur, D.S. Kang, H.S. Shin, S M. Jeong, “In-situ Electrochemical Measurement of O2- Concentration in Molten Li2O/LiCl during Uranium Oxide Reduction Process,” Electrochem. Solid-State Lett., 15(3), E11-E13(2012).

44.   H.J. Choi, S.M. Jeong, B.H. Lee, “Liquefaction Characteristics of ABS-Polyethylene Mixture by a Low-Temperature Pyrolysis,” Korean Chem. Eng. Res., 50(2), 223-228(2012).

43.   E.Y. Choi, J.W. Lee, J.J. Park, J.M. Hur, J.K. Kim, K.Y. Jung, S.M. Jeong, “Electrochemical reduction behavior of a highly porous SIMFUEL particle in a LiCl molten salt,” Chem. Eng. J., 207-208, 514-520(2012).

42.   H.S. Ji, H.Y. Ryu, H.M. Jeong, K.H. Jeong, S.M. Jeong, “An electrochemical reduction behavior of TiO2 pellet in molten calcium chloride,” J. of the Korean Radioactive Waste Soc., 10(2), 97-104(2012)

41.   H.Y. Ryu, S M. Jeong, J.G. Kim, “Electrochemical behavior of Mg2+ ions MgCl2-CaCl2-NaCl molten salt,” Korean Chem. Eng. Res., 50(6), 939-944(2012)

40.   M.C. Maniquiz, K.Y. Jung, S.M. Jeong, “Luminescence Comparison and Enhancement of Ce-doped Yttrium Aluminum Garnet Phosphor via Cation Substitution and Adding Flux,” J. Electrochem. Soc., 158, H697-H703(2011).

39.   H.J. Choi, S.M. Jeong, B.H. Lee, “Study on the Liquefaction Characteristics of ABS Resin in a Low-Temperature Pyrolysis,” Korean Chem. Eng. Res., 49, 417-422,(2011).

38.   E.Y. Choi, J.M. Hur, I.K. Choi, S.G. Kwon, D.S. Kang, S.S. Hong, H.S. Shin, M.A. Yoo, S.M. Jeong, “Electrochemical Reduction of Porous 17 kg Uranium Oxide Pellets by Selection of an Optimal Cathode/Anode Surface Area Ratio,” J. Nucl. Mater., 418, 87-92(2011).

37.   J.M. Hur, S.S. Hong, S.M. Jeong, “Development of an Oxide Reduction Process for the Treatment of PWR Spent Fuel”, J. of the Korean Radioactive Waste Soc., 8, 77-84(2010).

36.   S.M. Jeong, H.S. Shin, S.S. Hong, J.M. Hur, J.B. Doh, H.S. Lee, J.J. Park, “Electrochemical Reduction Behavior of U3O8 Powder in an LiCl Molten Salt,” Electrochimica Acta, 55, 1749-1755(2010).

35.   J.M. Hur, S.M. Jeong, H.S. Lee, “Molten Salt Vaporization during the Electrolytic Reduction Process,” Nucl. Eng. Technol., 42, 73-78(2010)

34.   J.M. Hur, S.M. Jeong, H.S. Lee, “Underpotential Deposition of Li in a Molten LiCl-Li2O Electrolyte for the Electrochemical Reduction of U from Uranium Oxides,” Electrochem. Comm., 12, 706-709(2010)

33.   S.M. Jeong, B.H. Park, J.M. Hur, C.S. Seo, H.S. Lee, K.C. Song, “An Experimental Study on an Electrochemical Reduction of an Oxide Mixture in the Advanced Spent-Fuel Conditioning Process,” Nucl. Eng. Technol., 42, 183-192(2010)

32.   M.C. Maniquiz, K.Y. Jung, S.M. Jeong, “Luminescence Characteristics of Y3Al5-2y(Mg, Si)yO12:Ce Phosphor Prepared by Spray Pyrolysis,” J. Electrochem. Soc., 157, H1135-H1139(2010).

31.   S.M. Jeong, H.S. Shin, S.H. Cho, J.M. Hur, H.S. Lee, “Electrochemical Behavior of a Platinum Anode for Reduction of Uranium Oxide in a LiCl Molten Salt,” Electrochimi. Acta, 54, 6335-6340(2009).

30.   S.M. Jeong, J.M. Hur, H.S. Lee, “Kinetic Modeling Study of a Voloxidation for the Production of U3O8 Powder from a UO2 Pellet,” Nucl. Eng. Technol., 41, 1073-1078(2009).

29.   S.M. Jeong, J.M. Hur, S.S. Hong, D.S. Kang, M.S. Jeong, C.S. Seo, J.S. Yoon, S.W. Park, “An Electrolytic Reduction of Uranium Oxide in the Advanced Spent Fuel Conditioning Process,” Nucl. Technol., 162, 184-191(2008).

28.   S.M. Jeong, H.Y. Yoo, J.M. Hur, C.S. Seo, “Preparation of Metallic Niobium from Niobium Pentoxide by an Electrolytic Reduction in a LiCl-Li2O Molten Salt,” J. Alloys Compd., 452, 27-31(2008).

27.   J.M. Hur, S.H. Cho, I.K. Choi, S.M. Jeong, C.S. Seo, “Preparation and Melting of U from U3O8,” J. Alloys Compd., 452, 23-26(2008).

26.   S.M. Jeong, J.Y. Jung, C.S. Seo, S.W, Park, “Characteristics of an Electrochemical Reduction of Ta2O5 to Metallic Tantalum in a LiCl-Li2O Molten Salt,” J. Alloys Compd., 440, 210-215(2007).

25.   J.M. Hur, S.C. Lee, S.M. Jeong , C.S. Seo, “Electrochemical reduction of TiO2 in molten LiCl-Li2O,” Chem. Lett., 36 (8) 1028-1029(2007).

24.   C.S. Seo, S.M. Jeong, S.B. Park, J.Y. Jung, S.W. Park, S.-H. Kim, “Preparation of Tantalum Powder from Ta2O5 by an Electrochemical Reduction in an LiCl-Li2O Molten Salt System,” J. Chem. Eng. Jpn, 39, 77-822006(2006).

23.   S.M. Jeong, S.B. Park, S.S. Hong, S.C. Seo, S.W. Park, “Electrolytic Production of Metallic Uranium form U3O8 in a 20 kg-Batch Scale Reactor,” J. Radioanal. Nucl. Chem., 268, 349-356(2006).

22.   S.B. Park, B.H. Park, S.M. Jeong, J.M. Hur, C.S. Seo, S.W. Park, “Characteristics of an Integrated Cathode Assembly for an Electrolytic Reduction of Uranium Oxide in LiCl-Li2O Molten Salt,” J. Radioanal. Nucl. Chem., 268, 489-495(2006).

21.   S.M. Jeong, K.C. Kwon, B.H. Park, SC. Seo, “A Kinetic Study of the Oxidation of Uranium Dioxide,” React. Kinet. Catal. Lett., 89, 269-275(2006).

20.   B.H. Park, S.B. Park, S.M. Jeong, C.S. Seo, S.W. Park, “Electrolytic Reduction of Spent Oxide Fuel in a Molten LiCl-Li2O System,” J. Radioanal. Nucl. Chem., 270, 575-583(2006).

19.   W.H. Lee, S.M. Jeong, J.H. Chae, J.H. Kang, “Coke Formation on KVO3-B2O3/SA5203 Catalysts in the Catalytic Pyrolysis of Naphtha,” Ind. Eng. Chem. Res, 43, 1820-1827(2004).

18.   S.A. Rho, S.H. Jung, S.M. Jeong, S.D. Kim, “Selective Catalytic Reduction by Urea in a Fluidized-Bed Reactor,” J. Chem. Technol. Biotechnol., 78, 1104-1109(2003).

17.   J.H. Chae, Y.C. Byun, S.M. Jeong, W.H. Lee, “Catalytic Cracking of Naphtha over Alumina Catalysts,” HWAHAK KONGHAK, 40, 75-81(2002).

16.   S.M. Jeong, J.H. Chae, J.H. Kang, S.H. Lee, W. –H. Lee, “Catalytic Pyrolysis of Naphtha on the KVO3-Based Catalyst,” Catal. Today, 74, 257-264(2002).

15.   S.M. Jeong, Y.C. Byun, J.H. Chae, W.H. Lee, “Coke Formation on the Surface of a-Al2O3 in the Catalytic Pyrolysis of Naphtha,” Korean J. Chem. Eng., 18, 842-847(2001).

14.   S.M. Jeong, J.H. Chae, W.H. Lee, “Study on the Catalytic Pyrolysis of Naphtha over a KVO3/a-Al2O3 Catalyst for Production of Light Olefin,” Ind. Eng. Chem. Res., 40, 6081-6086(2001).

13.   T.H. Lim, S.M. Jeong, S.D. Kim, J. Gyenis, “Photocatalytic Decomposition of NO by TiO2 Particles,” J. Photochem. Photobiol. A: Chem., 134, 209-217(2000).

12.   S.M. Jeong, S.D. Kim, “Removal of NOX and SO2 by CuO/g-Al2O3 Sorbent/Catalyst in a Fluidized Bed Reactor,” Ind. Eng. Chem. Res., 39, 1911-1916(2000).

11.   S.K. Kang, S.M. Jeong, S.D. Kim, “Quantitative XRD Analysis for Sulfation of Limestone in Flue Gas Desulfurization,” Ind. Eng. Chem. Res., 39, 2496-2504(2000).

10.   S.M. Jeong, S.D. Kim, “Development of CuO/g-Al2O3 Process for Flue Gas Cleanup,” Journal de l’ASCoF, 25, 15-23(2000).

9.   T.H. Lim, S.M. Jeong, S.D. Kim, J. Gyenis, “Degradation characteristics of NO by photocatalysis with TiO2 and CuO/TiO2,” Reac. Kinet. Catal. Lett., 71, 223-229(2000).

8.   S.H. Lee, S.M. Jeong, Y.J. Kim, J.H. Bang, J.M. Lee, J.S. Kim, S.D. Kim, “Oxidation reaction of NH3 on Calcined Limestone in Coal Combustor,” HWAHAK KONGHAK, 38, 706-710(2000).

7.   K.S. Yoo, S.M. Jeong, S.D. Kim, “Sulfation Kinetics of CuO Loaded Silica-Alumina Sorbent,” HWAHAK KONGHAK, 37, 229-234(1999).

6.   S.M. Jeong, S.H. Jung, K.S. Yoo , S.D. Kim, “Selective Catalytic Reduction of NO by NH3 over Bulk Sulfated CuO/g-Al2O3 Catalyst,” Ind. Eng. Chem. Res., 38, 2210-2215(1999).

5.   S.M. Jeong, S.D. Kim, “NOX Removal by the Selective Noncatalytic Reduction with Urea Solution in a Fluidized Bed Reactor,” Korean J. Chem. Eng., 16, 614-617(1999).

4.   Y.I. Lim, K.S. Yoo, S.M. Jeong, S.D. Kim, J.B. Lee , B.S. Choi, “Removal of NOX from Flue Gases with the Injection of Urea Solution,” HWAHAK KONGHAK, 35, 83-89(1997).

3.   S.M. Jeong, K.S. Yoo, S.D. Kim, “Effect of SO2 Gas on Regeneration of Sulfated CuO/g-Al2O3 Sorbent,” HWAHAK KONGHAK, 35, 116-120(1997).

2.   S.M. Jeong, S.D. Kim, “Enhancement of SO2 Sorption Capacity of CuO/g-Al2O3 Sorbent by Alkali-Salt Promoter,” Ind. Eng. Chem. Res., 36, 5425-5431(1997).

1.  K.S. Yoo, S.M. Jeong, S.D. Kim, S.B. Park, “Regeneration of Sulfated Alumina Support in CuO/g-Al2O3 Sorbent by Hydrogen,” Ind. Eng. Chem. Res., 35, 1543-15499(1996).

주소: (우)28644 충북 청주시 서원구 충대로 1(개신동) 충북대학교 공과대학 화학공학과 (E8-10동 707호, 708호)

Address : 1 Chungdae-ro, Seowon-gu, Cheongju, Chungbuk 28644, Korea (Dept. of Chemical Engineering, E8-10, No. 707, 708)