Journal
[158] J. Choi, W. Jung, J. C. Jung, "Efficient Production of Activated Carbons from PET for Organic Supercapacitor Applications: A Single-Step Approach", Materials Research Bulletin, 182, pp.113166 (2024).
[157] J. Choi, J. C. Jung, W. Jung, "Advances in Carbon Xerogels: Structural Optimization for Enhanced EDLC Performance", Gels, 10, pp.400 (2024).
[156] M. Kim, J. Cho, K. T. Park, C. H. Rhee, H. W. Park, J. C. Jung, "Stoichiometric (LaCoO3) vs. non-stoichiometric (LaCo0.9O3 −δ ) perovskite catalysts for CO oxidation: kinetics and reaction models", Journal of Industrial and Engineering Chemistry, 139, pp. 250-257 (2024).
[155] J. Yun, S. Kim, W. Jung, J. C. Jung, "Plastic-derived Solid Acid Catalysts for the Production of Methyl 2-hydroxyisobutyrate via Esterification", Korean Journal of Chemical Engineering, 41, pp.2297-2306 (2024).
[154] J. Cho, M. Kim, I. Yang, K. T. Park, C. H. Rhee, H. W. Park, J. C. Jung, "Oxygen vacancy engineering for tuning the catalytic activity of LaCoO3 perovskite", Journal of Rare Earths, 42, pp. 506-514 (2024).
[153] J. Cho, M. Kim, K. T. Park, C. H. Rhee, H. W. Park, B. Koo, J. C. Jung, "Surface engineering to tailor the active sites of SrTi0.9Co0.1O3-δ perovskite for CO oxidation", Molecular Catalysis, 550, pp. 113536 (2023).
[152] J. C. Jung, W. Jung, "pH-Controlled Synthesis of Carbon Xerogels for Coin-Type Organic Supercapacitor Electrodes", Korean Journal of Materials Research, 33, pp. 430-438 (2023)
[151] J. Cho, S. Kim, K. T. Park, C. H. Rhee, H. W. Park, J. C. Jung, "Eco-friendly CaO-based catalysts derived from waste oyster shells for the oxidative coupling of methane", Journal of Material Cycles and Waste Management, 25, pp. 3355-3366 (2023).
[150] G. Lee, T. J. Sim, Y. Jeong, T. Lee, H. Baik, J. C. Jung, K. Ha, S. Cho, Alex C.K. Yip, J. Choi, "Elucidation of Quantitative Effects of Zeolitic Pores in Mo-Impregnated MWW Type Zeolites on Catalytic Activities and Stabilities of Methane Dehydroaromatization Reaction", Applied Catalysis A: General, 659, pp. 119184 (2023).
[149] M. Jung, I. Yang, D. Choi, J. Lee, J. C. Jung "Activated carbons derived from polyethylene terephthalate for coin-cell supercapacitor electrodes", Korean Journal of Chemical Engineering, 40, pp. 2442 (2023).
[148] T. kim, J. Lee, I. Yang, B.-G. Kim, Y. R. Choi, J. C. Jung, H. B. Na, "Lanthanum oxide-based nanomaterials synthesized by using carbon aerogel template for effcient phosphate capture", Applied Surface Science, 610, pp. 155424 (2023).
[147] S. Kim, J. Yun, J. Cho, H. Choi, Y. S. Shin, H. Jeong, J. C. Jung, "Self-catalyzed esterification of 2-hydroxyisobutyric acid: A simple method to produce methyl 2-hydroxyisobutyrate", Molecular Catalysis, 532, pp. 112721 (2022).
[146] I. Yang, J. H. Mok, M. Jung, J. Yoo, M.-S. Kim, D. Choi, J. C. Jung, "Polyethylene-Derived Activated Carbon Materials for Commercially Available Supercapacitor in an Organic Electrolyte System", Macromolecular Rapid Communications, 43(10), pp. 2200006 (2022).
[145] G. Lee, M. Lee, Y. Jeong, E. Jang, H. Baik, J. C. Jung, J. Choi, "Synthetic Origin-Dependent Catalytic Activity of Metal-Organic Frameworks: Unprecedented Demonstration with ZIF-8s on CO2 Cycloaddition Reaction", Chemical Engineering Journal, 435, pp. 134964 (2022).
[144] D. Kwon, I. Yang, J. Cho, J.C. Jung, "Waste-derived calcium oxide catalysts for oxidative coupling of methane", Molecular Catalysis, 516, pp. 111982 (2021).
[143] M. Jung, I. Yang, J. Yoo, M.-S. Kim, J. C. Jung, "Low-cost activated carbon electrodes from waste maple leaves for organic electric double-layer capacitors", Journal of The Electrochemical Society, 168, pp. 080532 (2021).
[142] J. Cho, D. Kwon, I. Yang, S. An, J.C. Jung, "Unexpected activity of MgO catalysts in oxidative coupling of methane: Effects of Ca-promoter", Molecular Catalysis, 510, pp. 111677 (2021).
[141] D. Kwon, I. Yang, S. An, J. Cho, J.-M. Ha, J.C. Jung, "A study on active sites of A2BO4 catalysts with perovskite-like structures in oxidative coupling of methane", Molecular Catalysis, 506, pp. 111548 (2021).
[140] I. Yang, M. Jung, M.-S. Kim, D. Choi, J.C. Jung, "Physical and chemical activation mechanisms of carbon materials based on the microdomain model", Journal of Materials Chemistry A, 9, pp. 9815-9825 (2021).
[139] J. Yoo, I. Yang, D. Kwon, M. Jung, M.-S. Kim, J.C. Jung, "Low-cost carbon xerogels derived from phenol–formaldehyde resin for organic electric double-layer capacitors", Energy Technology, 9, pp. 2000918 (2021).
[138] S. An, J. Cho, D. Kwon, J.C. Jung, "Alkali-added catalysts based on LaAlO3 perovskite for the oxidative coupling of methane", ChemEngineering, 5(1), pp. 14 (2021).
[137] S. An, D. Kwon, J. Cho, J.C. Jung, "Effect of the Solvent on the Basic Properties of Mg-Al Hydrotalcite Catalysts for Glucose Isomerization", Catalysts, 10 (11), pp. 1236 (2020).
[136] S. An, J.C. Jung, "Kinetic modeling of thermal reactor in Claus process using CHEMKIN-PRO software", Case Studies in Thermal Engineering, 21, pp. 100694 (2020).
[135] Y. Sim*, I. Yang*, D. Kwon, J.-M. Ha, J.C. Jung, “Preparation of LaAlO3 perovskite catalysts by simple solid-state method for oxidative coupling of methane”, Catalysis Today, 352, pp. 134-139 (2020). (*Co-first author)
[134] Y. Sim, D. Kwon, S. An, J.-M. Ha, T.-S. Oh, J.C. Jung, "Catalytic behavior of ABO3 perovskites in the oxidative coupling of methane", Molecular Catalysis, 489, pp. 110925 (2020).
[133] HA. Park*, I. Yang*, M. Choi, K.-S. Jang, J.C. Jung, K.-Y. Choi, "Engineering of melanin biopolymer by co-expression of MelC tyrosinase with CYP102G4 monooxygenase: Structural composition understanding by 15tesla FT-ICR MS analysis", Biochemical Engineering Journal, 157, pp. 107530 (2020). (*Co-first author)
[132] I. Yang, J. Yoo, D. Kwon, D. Choi, M.-S. Kim, J.C. Jung, "Improvement of a commercial activated carbon for organic electric double-layer capacitors using a consecutive doping method", Carbon, 160, pp. 45-53 (2020).
[131] D. Kwon, J.Y. Kang, S. An, I. Yang, J.C. Jung, “Tuning the base properties of Mg-Al hydrotalcite catalysts using their memory effect”, Journal of Energy Chemistry, 46, pp. 229-236 (2020).
[130] I. Yang, J. Yoo, J. Lee, M.-S. Kim, J.C. Jung, “High-Performance Organic Electric Double-Layer Capacitors using Allergen-Derived Activated Carbons”, Journal of The Electrochemical Society, 166, pp. A3950-A3964 (2019).
[129] J. Yoo*, I. Yang*, M.-S. Kim, J.C. Jung, “Effects of molecular weight of polyvinylidene fluoride binder on electrochemical performances of organic electric double-layer capacitors”, Polymer(Korea), 43(6), pp. 838-845 (2019). (*Co-first author)
[128] S. Park*, D. Kwon*, J.Y. Kang, J.C. Jung, “Influence of the preparation method on the catalytic activity of Mg-Al hydrotalcites as solid base catalysts”, Green Energy & Environment, 4(3), pp. 287-292 (2019). (*Co-first author)
[127] D. Kwon, I. Yang, Y. Sim, J.-M. Ha, J.C. Jung, “A K2NiF4-type La2Li0.5Al0.5O4 catalyst for the oxidative coupling of methane (OCM)”, Catalysis communications, 128, pp. 105702 (2019).
[126] B. Kim, I. Yang, J.C. Jung, T.S. Lee, B. Yeam, “Titania Nanoparticle-Loaded Mesoporous Silica Synthesized Through Layer-by-Layer Assembly for the Photodegradation of Sodium Dodecylbenzenesulfonate”, Applied Surface Science, 490, pp. 38-46 (2019).
[125] K. Kim*, D. Kim*, T. Kim, B.-G. Kim, D. Ko, J. Lee, Y. Han, J.C. Jung, H.B. Na, “Synthesis of mesoporous lanthanum hydroxide with enhanced adsorption performance for phosphate removal”, RSC Advances, 9(27), pp. 15257-15264 (2019). (*Co-first author)
[124] Y. Sim*, J. Yoo*, J.-M. Ha J.C. Jung, “Oxidative coupling of methane over LaAlO3 perovskite catalysts prepared by a co-precipitation method: Effect of co-precipitation pH value”, Journal of Energy Chemistry, 35, pp. 1-8 (2019). (*Co-first author)
[123] I. Yang, D. Kwon, J. Yoo, M.-S. Kim, J.C. Jung, “Design of Organic Supercapacitors with High Performances Using Pore Size Controlled Active Materials”, Current Applied Physics, 19, pp. 89-96 (2019).
[122] H.I. Seo, J.C. Jung, M.-S. Kim, "Pore structure and electrochemical properties of carbon aerogels as an EDLC-electrode with different preparation conditions", Korean Journal of Materials Research, 28, pp. 50-61 (2018).
[121] I. Yang, D. Kwon, M.-S. Kim, J.C. Jung, “A comparative study of activated carbon aerogel and commercial activated carbons as electrode materials for organic electric double-layer capacitors”, Carbon, 132, pp. 503-511 (2018).
[120] I. Kim, G. Lee, I. Yang, J.-M. Ha, H.B. Na, J.C. Jung, “Effect of the preparation method on the crystallinity and catalytic activity of LaAlO3 perovskites for oxidative coupling of methane”, Applied Surface Science, 429, pp. 55-61 (2018). (*Co-first author)
[119] D. Kim, J.Y. Kang, G. Lee, K. Kim, B.-G. Kim, J.C. Jung, H.B. Na, “Synthesis of Pt/C nanocatalysts by galvanic replacement for dehydrogenation of decalin”, Science of Advanced Materials, 9, pp. 1540-1545 (2017).
[118] J.Y. Kang, G. Lee, Y.-W. Suh, J.C. Jung, “Effect of Mg/Al atomic ratio of Mg-Al hydrotalcites on their catalytic properties for the isomerization of glucose to fructose”, Journal of Nanoscience and Nanotechnology, 17, pp. 8242-8247 (2017).
[117] I. Kim, G. Lee, H. Jeong, J.H. Park, J.C. Jung, “Bifunctionality of Cu/ZnO catalysts for alcohol-assisted low-temperature methanol synthesis from syngas: Effect of copper content”, Journal of Energy Chemistry, 26, pp. 373-379 (2017).
[116] P.R. Choi, S.-G. Kim, J.C. Jung, M.-S. Kim, “High-energy-density activated carbon electrode for organic electric-double-layer-capacitor using carbonized petroleum pitch”, Carbon Letters, 22, pp. 70-80 (2017).
[115] I. Kim*, G. Lee*, H.B. Na, J.-M. Ha, J.C. Jung, “Selective oxygen species for the oxidative coupling of methane”, Molecular Catalysis, 435, pp. 13-23, (2017). (*Co-first author) (*editor's choice)
[114] I. Yang, S.-G. Kim, S.H. Kwon, M.-S. Kim, J.C. Jung, “Relationships between pore size and charge transfer resistance of carbon aerogels for organic electric double-layer capacitor electrodes”, Electrochimica Acta, 223(1), pp. 21-30 (2017).
[113] Z. Zhang, J.C. Jung, N. Yang, “Designed synthesis of MOx (M = Zn, Fe, Sn, Ni, Mn, Co, Ce, Mg, Ag), Pt, and Au nanoparticles supported on hierarchical CuO hollow structures”, Nanoscale, 8, pp. 19684-19695 (2016).
[112] I. Yang, G. Lee, J.C. Jung, “Effect of Conductive Additive Amount on Electrochemical Performances of Organic Supercapacitors”, Korean Journal of Materials Research, 26(12), pp. 696-703 (2016).
[111] P.R. Choi, J.C. Jung, Y.-S. Lim, M.-S. Kim, “Structural Characterization and EDLC-Electrode Performance of Coal-Tar-Pitch Activated Carbon Using K2CO3 Treatment”, Korean Journal of materials Research, 26(9), pp. 460-467 (2016).
[110] G. Lee, J.Y. Kang, N. Yang, Y.-W. Suh, J.C. Jung, “Simple preparation method for Mg-Al hydrotalcites as base catalysts” Journal of Molecular Catalysis A: Chemical, 423, pp. 347-355 (2016).
[109] H.I. Seo, S.-G. Kim, J.C. Jung, M.-S. Kim, “Preparation and Characterization of Carbon Aerogel Activated with KOH and CO2: Effect of Pore Size Distribution on Electrochemical Properties as EDLC Electrodes”, Polymer(Korea), 40(4), pp. 577-586 (2016).
[108] S.H. Kwon, B.-S. Kim, S.-G. Kim, B.-J. Lee, M.-S. Kim, J.C. Jung, “Preparation of nano-porous activated carbon aerogel using a single-step activation method for use as high-power EDLC electrode in organic electrolyte”, Journal of Nanoscience and Nanotechnology, 16(5), pp. 4598-4604 (2016).
[107] Y. Jeong, I. Kim, J.Y. Kang, N. Yan, H. Jeong, J.K. Park, J.H. Park, J.C. Jung, “Effect of the aging time of the precipitate on the activity of Cu/ZnO catalysts for alcohol-assisted low temperature methanol synthesis”, Journal of Molecular Catalysis. A: Chemical, 418, pp. 168-174 (2016).
[106] I. Yang, S.-G. Kim, S.H. Kwon, J.H. Lee, M.-S. Kim, J.C. Jung, “Pore Size-Controlled Carbon Aerogels for EDLC Electrodes in Organic Electrolytes”, Current Applied Physics, 16, pp. 665-672 (2016).
[105] J.Y. Kang, G. Lee, Y. Jeong, H.B. Na, J.C. Jung, "Pt@Cu/C core-shell catalysts for hydrogen production through catalytic dehydrogenation of decalin", Korean Journal of Materials Research, 26(1),pp. 17-21 (2016).
[104] Y. Jeong, J.Y. Kang, I. Kim, H. Jeong, J.K. Park, J.H. Park, J.C. Jung, “Preaparation of Cu/ZnO catalyst by a polyol method and its application to the alcohol-assisted low temperature methanol synthesis from syngas", Korean Journal of Chemical Engineering, 33(1), pp. 114-119 (2016).
[103] P.R. Choi, E. Lee, S.H. Kwon, J.C. Jung, M.-S. Kim, "Characterization and organic electric-double-layer-capacitor application of KOH activated coal-tar-pitch-based carbons: Effect of carbonization temperature", Journal of Physics and Chemistry of Solids, 87, pp. 72-79 (2015).
[102] E. Lee, S.H. Kwon, P.R. Choi, J.C. Jung, M.-S. Kim, “Activated carbons prepared from mixtures of coal tar pitch and petroleum pitch and their electrochemical performance as electrode materials for electric double-layer capacitor”, Carbon letters, 16(2), pp. 78-85 (2015).
[101] G. Lee, J.Y. Kang, Y. Jeong, J.C. Jung, "Hydrogen production through catalytic dehydrogenation of decalin over Pt/C catalyst using activated carbon aerogel", Korean Journal of Materials Research, 25(4), pp. 191-195 (2015).
[100] G. Lee, Y. Jeong, B.-G. Kim, J.S. Han, H. Jeong, H.B. Na, J.C. Jung, "Hydrogen production by catalytic decalin dehydrogenation over carbon-supported platinum catalyst: Effect of catalyst preparation method", Catalysis Communications, 67, pp. 40-44 (2015).
[99] I. Yang, S.H. Kwon, B.-S. Kim, S.-G. Kim, B.-J. Lee, M.-S. Kim, J.C. Jung, “Effect of mixing of active material and conductive additive on the electrochemical performance of electric double layer capacitor electrode in organic electrolyte”, Korean Journal of Materials Research, 25(3), pp. 132-137 (2015).
[98] Y. Jeong, I. Kim, J.Y. Kang, H. Jeong, J.K. Park, J.H. Park, J.C. Jung, “Alcohol-assisted low temperature methanol synthesis from syngas over Cu/ZnO catalysts: Effect of pH value in the co-precipitation step”, Journal of Molecular Catalysis A: Chemical, .400, pp. 132-138 (2015).
[97] S.H. Kwon, E. Lee, B.-S. Kim, S.-G. Kim, B.-J. Lee, M.-S. Kim, J.C. Jung, “Preparation of activated carbon aerogel and its application to electrode material for EDLC in organic electrolyte: Effect of activation temperature”, Korean Journal of Chemical Engineering, 32(2), pp 248-254 (2015).
[96] A. Takagaki, J.C. Jung, S. Hayashi, “Solid Lewis acidity of boehmite γ-AlO(OH) and its catalytic activity for transformation of sugars in water", Royal Society of Chemistry Advances, 4, pp. 43785-43791 (2014).
[95] G. Lee, Y. Jeong, A. Takagaki, J.C. Jung, “Sonication assisted rehydration of hydrotalcite catalysts for isomerization of glucose to fructose”, Journal of Molecular Catalysis A: Chemical, 393, pp. 289-295 (2014).
[94] S.H. Kwon, E. Lee, B.-S. Kim, S.-G. Kim, B.-J. Lee, M.-S. Kim, J.C. Jung, “Activated carbon aerogel as electrode material for coin-type EDLC cell in organic electrolyte”, Current Applied Physics, 14(4), pp. 603-607 (2014).
[93] E.J. Lee, S.H. Kwon, P. Chol, J.-P. Wu, J.C. Jung, M.-S. Kim, "Preparation and Characterization of high-quality activated carbon by KOH activation of pitch precursors", Journal of The Korean Oil Chemists Society, 31(3), pp. 408-415 (2014).
[92] E.J. Lee, S.H. Kwon, P. Choi, J.C. Jung, M.-S. Kim, “Electrochemical Performance of Activated Carbon Electrode Materials with Various Post Treatments for EDLC”, Korean Journal of Materials Research, 24(6), pp. 285-292 (2014).
[91] E. Kim, S.H. Kwon, M.-S. Kim, J.C. Jung, “Preparation of silicon-carbon composite via magnesiothermic reduction method and its application to the anode material for lithium ion battery”, Korean Journal of Materials Research, 24(5), pp. 243-248 (2014).
[90] J.H. Choi, Y.J. Lee, T.H. Kang, Y. Bang, J.H. Song, J.C. Jung, I.K. Song, “Redox Properties of α2-K8P2W17(M·OH2)O61 (M=MnII, ZnII, FeII, CoII, and NiII) Wells-Dawson Heteropolyacids Probed by Scanning Tunneling Microscopy and Tunneling Spectroscopy”, Catalysis Communications, 39, pp. 60-64 (2013).
[89] Y. Bang, S.J. Han, J. Yoo, J.H. Choi, K.H. Kang, J.H. Song, J.G. Seo, J.C. Jung, I.K. Song, “Hydrogen Production by Steam Reforming of Liquefied Natural Gas (LNG) over Trimethylbenzene-assisted Ordered Mesoporous Nickel-alumina Catalyst”, International Journal of Hydrogen Energy, 38(21), pp. 8751-8758 (2013).
[88] S. Yu, E. Kim, S. Park, I.K. Song, J.C. Jung, "Isomerization of glucose into fructose over Mg-Al hydrotalcite catalysts", Catalysis Communications, 29, pp. 63-67 (2012).
[87] H. Lee, J.K. Lee, U.G. Hong, I.K. Song, Y. Yoo, Y.-J. Cho, J. Lee, H.-S. Chang, J.C. Jung, “Oxidative Dehydrogenation of n-Butane over Vanadium Magnesium Oxide Catalysts Supported on Nano-structured MgO and ZrO2: Effect of Oxygen Capacity of the Catalyst”, Journal of Nanoscience and Nanotechnology, 12(7), pp. 6045-6050 (2012).
[86] S. Hwang, J. Lee, U.G. Hong, J.C. Jung, J.H. Baik, D.J. Koh, H. Lim, I.K. Song, “Hydrogenation of CO to Methane over Mesoporous Nickel-iron-alumina Xerogel Nano-catalysts”, Journal of Nanoscience and Nanotechnology, 12(7), pp. 6051-6057 (2012).
[85] H.J. Lee, W. Joe, J.C. Jung, I.K. Song, “Direct Synthesis of Dimethyl Carbonate from Methanol and Carbon Dioxide over Ga2O3-CeO2-ZrO2 Catalysts Prepared by a Single-step Sol-gel Method: Effect of Acidity and Basicity of the Catalysts”, Korean Journal of Chemical Engineering, 29(8), pp. 1019-1024 (2012).
[84] H. Lee, J.K. Lee, U.G. Hong, Y. Yoo, Y.-J. Cho, J. Lee, H.-S. Jang, J.C. Jung, I.K. Song, “Effect of Oxygen Capacity and Oxygen Mobility of Supported Mg3(VO4)2 Catalysts on the Performance in the Oxidative Dehydrogenation of n-Butane”, Journal of Industrial and Engineering Chemistry, 18(2), pp. 808-813 (2012).
[83] S. Hwang, J. Lee, U.G. Hong, J.C. Jung, D.J. Koh, H. Lim, C. Byun, I.K. Song, “Hydrogenation of Carbon Monoxide to Methane over Mesoporous Nickel-M-Alumina (M = Fe, Ni, Co, Ce, and La) Xerogel Catalysts”, Journal of Industrial and Engineering Chemistry, 18(1), pp. 243-248 (2012).
[82] Y.J. Lee, J.C. Jung, S. Park, J.G. Seo, S.-H. Baeck, J.R. Yoon, J. Yi, I.K. Song, “Nano-sized Ni-doped Carbon Aerogel for Supercapacitor”, Journal of Nanoscience and Nanotechnology, 11(7), pp. 6528-6532 (2011).
[81] H.J. Lee, S. Park, J.C. Jung, I.K. Song, “Direct Synthesis of Dimethyl Carbonate from Methanol and Carbon Dioxide over H3PW12O40/CeXZr1-XO2 catalysts: Effect of Acidity of the Catalysts”, Korean Journal of Chemical Engineering, 28(7), pp. 1518-1522 (2011).
[80] J. Lee, S. Hwang, J.G. Seo, U.G. Hong, J.C. Jung, I.K. Song, “Pd Catalyst Supported on SiO2-Al2O3 Xerogel for Hydrocracking of Paraffin Wax to Middle Distillate”, Journal of Industrial and Engineering Chemistry, 17(2), pp. 310-315 (2011).
[79] H.J. Lee, S. Park, I.K. Song, J.C. Jung, “Direct Synthesis of Dimethyl Carbonate from Methanol and Carbon Dioxide over Ga2O3/Ce0.6Zr0.4O2 Catalysts: Effect of Acidity and Basicity of the Catalysts”, Catalysis Letters, 141(4), pp. 531-537 (2011).
[78] S. Hwang, J. Lee, U.G. Hong, J.G. Seo, J.C. Jung, D.J. Koh, H. Lim, C. Byun, I.K Song, “Methane Production from Carbon Monoxide and Hydrogen over Nickel-alumina Xerogel Catalyst: Effect of Nickel Content”, Journal of Industrial and Engineering Chemistry ,17(1), pp. 154-157 (2011).
[77] Y.J. Lee, J.C. Jung, S. Park, J.G. Seo, S.-H. Baeck, J.R. Yoon, J. Yi, I.K. Song, “Preparation and Performance of Cobalt-doped Carbon Aerogel for Supercapacitor”, Korean Journal of Chemical Engineering, 28(2), pp. 492-496 (2011).
[76] Y. Bang, D.R. Park, Y.J. Lee, J.C. Jung, I.K. Song, “Preparation, Characterization, and Oxidation Catalysis of H3PMo12O40 Heteropolyacid Catalyst Immobilized on Carbon Aerogel”, Korean Journal of Chemical Engineeing, 28(1), pp. 79-83 (2011).
[75] Y.J. Lee, J.C. Jung, S. Park, J.G. Seo, S.-H. Baeck, J.R. Yoon, J. Yi, I.K. Song, “Effect of Preparation Method on Electrochemical Property of Mn-doped Carbon Aerogel for Supercapacitor”, Current Applied Physics, 11, pp. 1-5 (2011).
[74] J. Lee, S. Hwang, J.G. Seo, S.-B. Lee, J.C. Jung, I.K. Song, “Production of Middle Distillate through Hydrocracking of Paraffin Wax over Pd/SiO2-Al2O3 Catalysts”, Journal of Industrial and Engineering Chemistry, 16(5), pp. 790-794 (2010).
[73] J.G. Seo, M.H. Youn, J.C. Jung, I.K. Song, “Hydrogen Production by Steam Reforming of Liquefied Natural Gas (LNG) over Mesoporous Nickel-alumina Aerogel Catalyst”, International Journal of Hydrogen Energy, 35, pp. 6738-6746 (2010).
[72] M.H. Youn, J.G. Seo, J.C. Jung, J.S. Chung, I.K. Song, “Support Modification of Supported Nickel Catalysts for Hydrogen Production by Auto-thermal Reforming of Ethanol”, Catalysis Surveys from Asia, 14(2), pp. 55-63 (2010).
[71] J. Lee, S. Hwang, D.R. Park, J.G. Seo, M.H. Youn, J.C. Jung, S.-B. Lee, J.S. Chung, I.K. Song, “Production of Middle Distillate through Hydrocracking of Paraffin Wax over Pd0.15CsxH2.7-xPW12O40 Catalysts: Effect of Cesium Content and Surface Acidity”, Korean Journal of Chemical Engineering, 27(3), pp. 807-811 (2010).
[70] Y.J. Lee, J.C. Jung, S. Park, J.G. Seo, S.-H. Baeck, J.R. Yoon, J. Yi, I.K. Song, “Preparation and Characterization of Metal-doped Carbon Aerogel for Supercapacitor”, Current Applied Physics, 10(3), pp. 947-951 (2010).
[69] Y.J. Lee, J.C. Jung, J. Yi, S.-H. Baeck, J.R. Yoon, I.K. Song, “Preparation of Carbon Aerogel in Ambient Conditions for Electrical Double-layer Capacitor”, Current Applied Physics, 10(2), pp. 682-686 (2010).
[68] H. Lee, J.C. Jung, I.K. Song, “Oxidative Dehydrogenation of n-Butene to 1,3-Butadiene over Sulfated ZnFe2O4 Catalyst”, Catalysis Letters, 133(3-4), pp. 321-327 (2009).
[67] S. Hwang, J. Lee, J.G. Seo, D.R. Park, M.H. Youn, J.C. Jung, S.-B. Lee, I.K. Song, “Production of Middle Distillate through Hydrocracking of Paraffin Wax over NiMo/SiO2-Al2O3 Catalysts: Effect of Solvent in the Preparation of SiO2-Al2O3 by a Sol-Gel Method”, Catalysis Letters, 132(3-4), pp. 410-416 (2009).
[66] J.G. Seo, M.H. Youn, D.R. Park, J.C. Jung, I.K. Song, “Hydrogen Production by Steam Reforming of Liquefied Natural Gas (LNG) over Mesoporous Ni-Al2O3 Composite Catalyst Prepared by a Single-step Non-ionic Surfactant-templating Method”, Catalysis Letters, 132(3-4), pp. 395-401 (2009).
[65] D.R. Park, S.H. Song, U.G. Hong, J.G. Seo, J.C. Jung, I.K. Song, “Redox Properties and Catalytic Oxidation Activities of Polyatom-substituted HnPW11M1O40 (M=V, Nb, Ta, and W) Keggin Heteropolyacid (HPA) Catalysts”, Catalysis Letters, 132(3-4), pp. 363-369 (2009).
[64] J.C. Jung, H. Lee, D.R. Park, J.G. Seo, I.K. Song, “Effect of Calcination Temperature on the Catalytic Performance of γ-Bi2MoO6 in the Oxidative Dehydrogenation of n-Butene to 1,3-Butadiene”, Catalysis Letters, 131(3-4), pp. 401-405 (2009).
[63] H. Lee, J.C. Jung, H. Kim, Y.-M. Chung, T.J. Kim, S.J. Lee, S.-H. Oh, Y.S. Kim, I.K. Song, “Oxidative Dehydrogenation of n-Butene to 1,3-Butadiene over ZnMeIIIFeO4 Catalysts: Effect of Trivalent Metal (MeIII)”, Catalysis Letters, 131(3-4), pp. 344-349 (2009).
[62] S. Park, J.G. Seo, J.C. Jung, S.-H. Baeck, T.J. Kim, Y.-M. Chung, S.-H. Oh, I.K. Song, “Direct Synthesis of Hydrogen Peroxide from Hydrogen and Oxygen over Palladium Catalysts Supported on TiO2-ZrO2 Mixed Metal Oxides”, Catalysis Communications, 10(13), pp. 1762-1765 (2009).
[61] M.H. Youn, J.G. Seo, J.C. Jung, S. Park, I.K. Song, “Hydrogen Production by Auto-thermal Reforming of Ethanol over Nickel Catalyst Supported on Mesoporous Yttria-stabilized Zirconia”, International Journal of Hydrogen Energy, 34(13), pp. 5390-5397 (2009).
[60] J.G. Seo, M.H. Youn, J.C. Jung, I.K. Song, “Effect of Preparation Method of Mesoporous Ni-Al2O3 Catalysts on Their Catalytic Activity for Hydrogen Production by Steam Reforming of Liquefied Natural Gas (LNG)”, International Journal of Hydrogen Energy, 34(13), pp. 5409-5416 (2009).
[59] J.C. Jung, H. Lee, I.K. Song, “Production of 1,3-Butadiene from C4 Raffinate-3 through Oxidative Dehydrogenation of n-Butene over Bismuth Molybdate Catalysts”, Catalysis Surveys from Asia, 13(2), pp. 78-93 (2009).
[58] S. Park, J.C. Jung, J.G. Seo, T.J. Kim, Y.-M. Chung, S.-H. Oh, I.K. Song, “Direct Synthesis of Hydrogen Peroxide over Palladium Catalysts Supported on SO3H-functionalized SiO2 and TiO2”, Catalysis Letters, 130(3-4), pp. 604-607 (2009).
[57] H. Lee, J.C. Jung, H. Kim, Y.-M. Chung, T.J. Kim, S.J. Lee, S.-H. Oh, Y.S. Kim, I.K. Song, “Effect of CsxH3-xPW12O40 Addition on the Catalytic Performance of ZnFe2O4 in the Oxidative Dehydrogenation of n-Butene to 1,3-Butadiene”, Korean Journal of Chemical Engineering, 26(4) pp. 994-998 (2009).
[56] D.R. Park, H. Kim, J.C. Jung, M.S. Shin, S.J. Han, I.K. Song, “Catalytic Conversion of Urea to Biuret: A Catalyst Screening Study”, Korean Journal of Chemical Engineering, 26(4), pp. 990-993 (2009).
[55] J.G. Seo, M.H. Youn, S. Park, D.R. Park, J.C. Jung, J.S. Chung, I.K. Song, “Hydrogen Production by Steam Reforming of Liquefied Natural Gas (LNG) over Mesoporous Nickel-Alumina Composite Catalyst Prepared by an Anionic Surfactant-Templating Method”, Catalysis Today, 146(1-2), pp. 44-49 (2009).
[54] J.C. Jung, H. Lee, I.K. Song, “Catalytic Performance of Co9Fe3Bi1Mo12O51 Catalysts in the Oxidative Dehydrogenation of n-Butene to 1,3-Butadiene: Effect of pH in the Preparation of Co9Fe3Bi1Mo12O51 Catalysts by a Co-precipitation Method”, Catalysis Letters, 129(1-2), pp. 228-232 (2009).
[53] H. Kim, D.R. Park, S. Park, J.C. Jung, S.-B. Lee, I.K. Song, “Preparation, Characterization, and Catalytic Activity of H5PMo10V2O40 Immobilized on Nitrogen-containing Mesoporous Carbon (PMo10V2/N-MC) for Selective Conversion of Methanol to Dimethoxymethane”, Korean Journal of Chemical Engineering, 26(3), pp. 660-665 (2009).
[52] G.I. Park, Mark A. Barteau, J.C. Jung, I.K. Song, “STM Studies of Keggin-type and Wells-Dawson-type Heteropolyacid Catalysts”, Korean Chemical Engineering Research, 47(2), pp. 163-168 (2009).
[51] S. Hwang, J. Lee, S. Park, D.R. Park, J.C. Jung, S.-B. Lee, I.K. Song, “Production of Middle Distillate through Hydrocracking of Paraffin Wax over NiMo/SiO2-Al2O3 Catalysts: Effect of SiO2-Al2O3 Composition on Acid Property and Catalytic Performance of NiMo/SiO2-Al2O3 Catalysts”, Catalysis Letters, 129(1-2), pp. 163-169 (2009).
[50] M.H. Youn, J.G. Seo, J.C. Jung, S. Park, D.R. Park, S.-B. Lee, I.K. Song, “Hydrogen Production by Auto-thermal Reforming of Ethanol over Ni Catalyst Supported on ZrO2 Prepared by a Sol-gel Method: Effect of H2O/P123 Mass Ratio in the Preparation of ZrO2”, Catalysis Today, 146(1-2), pp. 57-62 (2009).
[49] J.C. Jung, H. Lee, I.K. Song, “Effect of Preparation Method of Co9Fe3Bi1Mo12O51 on the Catalytic Performance in the Oxidative Dehydrogenation of n-Butene to 1,3-Butadiene: Comparison between Co-precipitation Method and Citric Acid-derived Sol-gel Method”, Catalysis Letters, 128(1-2), pp. 243-247 (2009).
[48] J.C. Jung, H. Lee, J.G. Seo, S. Park, Y.-M. Chung, T.J. Kim, S.J. Lee, S.-H. Oh, Y.S. Kim, I.K. Song, “Oxidative Dehydrogenation of n-Butene to 1,3-Butadiene over Multicomponent Bismuth Molybdate (MII9Fe3Bi1Mo12O51) Catalysts: Effect of Divalent Metal (MII)”, Catalysis Today, 141(3-4), pp. 325-329 (2009).
[47] J.G. Seo, M.H. Youn, S. Park, J.C. Jung, P. Kim, J.S. Chung, I.K. Song, “Hydrogen Production by Steam Reforming of Liquefied Natural Gas (LNG) over Nickel Catalysts Supported on Cationic Surfactant-templated Mesoporous Aluminas”, Journal of Power Sources, 186(1), pp. 178-184 (2009).
[46] M.H. Youn, J.G. Seo, S. Park, D.R. Park, J.C. Jung, P. Kim, I.K. Song, “Hydrogen Production by Auto-thermal Reforming of Ethanol over Ni-Ti-Zr Metal Oxide Catalysts”, Renewable Energy, 34(3), pp. 731-735 (2009).
[45] M.H. Youn, J.G. Seo, S. Park, J.C. Jung, D.R. Park, I.K. Song, “Hydrogen Production by Auto-thermal Reforming of Ethanol over Ni Catalysts Supported on ZrO2: Effect of Preparation Method of ZrO2 Support”, International Journal of Hydrogen Energy, 33(24), pp. 7457-7463 (2008).
[44] S.H. Lee, S.H Song, D.R. Park, J.C. Jung, J.H. Song, S.Y. Woo, W.S. Song, M.S. Kwon, I.K. Song, “Solvent-free Direct Preparation of Dichloropropanol from Glycerol and Hydrochloric Acid Gas in the Presence of H3PMo12-XWXO40 Catalyst and/or Water Absorbent”, Catalysis Communications, 10(2), pp. 160-164 (2008).
[43] D.R. Park, J.H. Song, S.H. Lee, S.H. Song, H. Kim, J.C. Jung, I.K. Song, “Redox Properties of H3PMoxW12-xO40 and H6P2MoxW18-xO62 Heteropolyacid Catalysts and Their Catalytic Activity for Benzyl Alcohol Oxidation”, Applied Catalysis A: General, 349(1-2), pp. 222-228 (2008).
[42] M.H. Youn, J.G. Seo, K.M. Cho, S. Park, D.R. Park, J.C. Jung, I.K. Song, “Hydrogen Production by Auto-thermal Reforming of Ethanol over Nickel Catalysts Supported on Ce-modified Mesoporous Zirconia: Effect of Ce/Zr Molar Ratio”, International Journal of Hydrogen Energy, 33(19), pp. 5052-5059 (2008).
[41] S. Park, K.M Cho, M.H. Youn, J.G. Seo, J.C. Jung, S.-H. Baeck, T.J. Kim, Y.-M. Chung, S.-H. Oh, I.K. Song, “Direct Epoxidation of Propylene with Hydrogen Peroxide over TS-1 Catalysts: Effect of Hydrophobicity of the Catalysts”, Catalysis Communications, 9(15), pp. 2485-2488 (2008).
[40] J.G. Seo, M.H. Youn, J.C. Jung, K.M. Cho, S. Park, I.K. Song, “Preparation of Ni/Al2O3-ZrO2 Catalysts and Their Application to Hydrogen Production by Steam Reforming of LNG: Effect of ZrO2 Content Grafted on Al2O3”, Catalysis Today, 138(3-4), pp. 130-134 (2008).
[39] J.C. Jung, H. Lee, S. Park, Y.-M. Chung, T.J. Kim, S.J. Lee, S.-H. Oh, Y.S. Kim, I.K. Song, “Effect of Reaction Conditions on the Catalytic Performance of Co9Fe3Bi1Mo12O51 in the Oxidative Dehydrogenation of n-Butene to 1,3-Butadiene”, Korean Journal of Chemical Engineering, 25(6), pp. 1316-1321 (2008).
[38] J.C. Jung, H. Lee, H. Kim, S. Park, Y.-M. Chung, T.J. Kim, S.J. Lee, S.-H. Oh, Y.S. Kim, I.K. Song, “Effect of Calcination Temperature on the Catalytic Performance of Co9Fe3Bi1Mo12O51 in the Oxidative Dehydrogenation of n-Butene to 1,3-Butadiene”, Catalysis Communications, 9(10), pp. 2059-2062 (2008).
[37] S.H. Lee, D.R. Park, H. Kim, J. Lee, J.C. Jung, S. Park, K.M. Cho, I.K. Song, “Catalytic Activity of H3PMo12-XWXO40 and H6P2Mo18-XWXO62 Heteropolyacid (HPA) Catalysts in the Direct Preparation of Dichloropropanol (DCP) from Glycerol”, Reaction Kinetics and Catalysis Letters, 94(1), pp. 71-76 (2008).
[36] H. Lee, J.C. Jung, H. Kim, Y.-M. Chung, T.J. Kim, S.J. Lee, S.-H. Oh, Y.S. Kim, I.K. Song, “Effect of Divalent Metal Component (MeII) on the Catalytic Performance of MeIIFe2O4 Catalysts in the Oxidative Dehydrogenation of n-Butene to 1,3-Butadiene”, Catalysis Letters, 124(3-4), pp. 364-368 (2008).
[35] S.H. Lee, D.R. Park, H. Kim, J. Lee, J.C. Jung, S.Y. Woo, W.S. Song, M.S. Kwon, I.K. Song, “Direct Preparation of Dichloropropanol (DCP) from Glycerol Using Heteropolyacid (HPA) Catalysts: A Catalyst Screen Study”, Catalysis Communications, 9(9), pp. 1920-1923 (2008).
[34] S.H. Lee, D.R. Park, H. Kim, J. Lee, J.C. Jung, S.Y. Woo, W.S. Song, M.S Kwon, I.K. Song, “Effect of Reaction Conditions on the Catalytic Performance of H3PW12O40 Heteropolyacid Catalyst in the Direct Preparation of Dichloropropanol from Glycerol in a Liquid-phase Batch Reactor”, Korean Journal of Chemical Engineering, 25(5), pp. 1018-1021 (2008).
[33] J.C. Jung, H. Lee, H. Kim, Y.-M. Chung, T.J. Kim, S.J. Lee, S.-H. Oh, Y.S. Kim, I.K. Song, “Effect of Oxygen Capacity and Oxygen Mobility of Pure Bismuth Molybdate and Multicomponent Bismuth Molybdate on Their Catalytic Performance in the Oxidative Dehydrogenation of n-Butene to 1,3-Butadiene”, Catalysis Letters, 124(3-4), pp. 262-267 (2008).
[32] J.C. Jung, H. Lee, H. Kim, Y.-M. Chung, T.J. Kim, S.J. Lee, S.-H. Oh, Y.S. Kim, I.K. Song, “Oxidative Dehydrogenation of C4 Raffinate-3 to 1,3-Butadiene in a Dual-bed Reaction System Comprising ZnFe2O4 and Co9Fe3Bi1Mo12O51 Catalysts: A Synergistic Effect of ZnFe2O4 and Co9Fe3Bi1Mo12O51 Catalysts”, Catalysis Letters, 123(3-4), pp. 239-245 (2008).
[31] J.C. Jung, H. Lee, H. Kim, Y.-M. Chung, T.J. Kim, S.J. Lee, S.-H. Oh, Y.S. Kim, I.K. Song, “Reactivity of n-Butene Isomers over a Multicomponent Bismuth Molybdate Catalyst (Co9Fe3Bi1Mo12O51) in the Oxidative Dehydrogenation of n-Butene”, Catalysis Communications, 9(7), pp. 1676-1680 (2008).
[30] J. Lee, H. Kim, K.W. La, D.R. Park, J.C. Jung, S.H. Lee, I.K. Song,, “Chemical Immobilization of H5PMo10V2O40 (PMo10V2) Catalyst on Nitrogen-rich Macroporous Carbon (N-MC) for Use as an Oxidation Catalyst”, Catalysis Letters, 123(1-2), pp. 90-95 (2008).
[29] K.W. La, H. Kim, J.C. Jung, J. Lee, D.R. Park, S.H. Lee, I.K. Song, “Preparation of H5PMo10V2O40 Catalyst Immobilized on Spherical Carbon and Its Application to the Vapor-phase 2-Propanol Conversion Reaction”, Korean Journal of Chemical Engineering, 25(4), pp. 710-713 (July 2008).
[28] H. Lee, J.C. Jung, H. Kim, Y.-M. Chung, T.J. Kim, S.J. Lee, S.-H. Oh, Y.S. Kim, I.K. Song, “Preparation of ZnFe2O4 Catalysts by a Co-precipitation Method Using Aqueous Buffer Solution and Their Catalytic Activity for Oxidative Dehydrogenation of n-Butene to 1,3-Butadiene”, Catalysis Letters, 122(3-4), pp. 281-286 (2008).
[27] D.R. Park, H. Kim, J.C. Jung, S.H. Lee, J. Lee, I.K. Song, “Reduction Potentials and UV-visible Absorption Edge Energies of H6P2MoxW18-xO62 Heteropolyacid (HPA) Catalysts as a Probe of Oxidation Catalysis for Ethanol Conversion Reaction”, Catalysis Communications, 9(6), pp. 1312-1316 (2008).
[26] D.R. Park, H. Kim, J.C. Jung, S.H. Lee, J. Lee, I.K. Song, “Correlation between Reduction Potential of Vanadium-containing Heteropolyacid (HPA) Catalysts and Their Oxidation Activity for Cyclohexanol Dehydrogenation”, Reaction Kinetics and Catalysis Letters, 93(1), pp. 43-49 (2008).
[25] H. Lee, J.C. Jung, H. Kim, Y.-M. Chung, T.J. Kim, S.J. Lee, S.-H. Oh, Y.S. Kim, I.K. Song, “Effect of pH in the Preparation of ZnFe2O4 for Oxidative Dehydrogenation of n-Butene to 1,3-Butadiene: Correlation between Catalytic Performance and Surface Acidity of ZnFe2O4”, Catalysis Communications, 9(6), pp. 1137-1142 (2008).
[24] J.C. Jung, H. Lee, H. Kim, Y.-M. Chung, T.J. Kim, S.J. Lee, S.-H. Oh, Y.S. Kim, I.K. Song, “Effect of pH in the Preparation of Ni9Fe3Bi1Mo12O51 for Oxidative Dehydrogenation of n-Butene to 1,3-Butadiene: Correlation between Catalytic Performance and Oxygen Mobility of Ni9Fe3Bi1Mo12O51”, Catalysis Communications, 9(5), pp. 943-949 (2008).
[23] H. Kim, J.C. Jung, D.R. Park, H. Lee, J. Lee, S.H. Lee, S-H. Baeck, K.-Y. Lee, J. Yi, I.K. Song, “Preparation of H5PMo10V2O40 Catalyst Immobilized on Nitrogen-containing Mesostructured Cellular Foam Carbon (N-MCF-C) and Its Application to the Vapor-phase Oxidation of Benzyl Alcohol“, Catalysis Today, 132(1-4), pp. 58-62 (2008).
[22] J.C. Jung, H. Lee, H. Kim, Y.-M. Chung, T.J. Kim, S.J. Lee, S.-H. Oh, Y.S. Kim, I.K. Song, “Preparation, Characterization, and Catalytic activity of Bi-Mo-based Catalysts for the Oxidative Dehydrogenation of n-Butene to 1,3-Butadiene”, Research on Chemical Intermediates, 34(8-9), pp. 827-833 (2008).
[21] D.R. Park, H. Kim, J.C. Jung, S.H. Lee, I.K. Song, “Reduction Potential and Oxidation Catalysis of Vanadium-Containing H6+xP2Mo18-xVxO62 Wells-Dawson Heteropolyacid (HPA) Catalysts”, Research on Chemical Intermediates, 34(8-9), pp. 845-851 (2008).
[20] J.C. Jung, H. Lee, H. Kim, Y.-M. Chung, T.J. Kim, S.J. Lee, S.-H. Oh, Y.S. Kim, I.K. Song, “Catalytic Performance of Multicomponent Bismuth Molybdates (NiXFe3Bi1Mo12O42+X) in the Oxidative Dehydrogenation of C4 Raffinate-3 to 1,3-Butadiene: Effect of Nickel Content and Acid Property”, Catalysis Communications, 9(3), pp. 447-452 (2008).
[19] H. Kim, J.C. Jung, D.R. Park, J. Lee, K.M. Cho, S. Park, S.H. Lee, I.K. Song, “Immobilization of H3PMo12O40 Catalyst on the Nitrogen-containing Mesoporous Carbon and Its Application to the Vapor-phase 2-Propanol Conversion Reaction”, Korean Journal of Chemical Engineering, 25(2), pp. 231-235 (2008).
[18] D.R. Park, H. Kim, J.C. Jung, S.H. Lee, I.K. Song, “Reduction Potentials of H3+xPMo12-xVxO40 and H6+xP2Mo18-xVxO62 Heteropolyacid (HPA) Catalysts and Their Catalytic Activity for the Vapor-phase Oxidative Dehydrogenation of Isobutyric Acid”, Catalysis Communications, 9(2), pp. 293-298 (2008)
[17] M.H. Youn, J.G. Seo, K.M. Cho, J.C. Jung, H. Kim, K.W. La, D.R. Park, S. Park, S.H. Lee, I.K. Song, “Effect of Support on Hydrogen Production by Auto-thermal Reforming of Ethanol over Supported Nickel Catalysts”, Korean Journal of Chemical Engineering, 25(2), pp. 236-238 (2008).
[16] H. Kim, J.C. Jung, I.K. Song, “Chemical Immobilization of Heteropolyacid (HPA) Catalyst on Inorganic Mesoporous Material for Use as an Oxidation Catalyst”, Catalysis Surveys from Asia, 11(3), pp. 114-122 (2007)
[15] J.C. Jung, H. Lee, H. Kim, Y.-M. Chung, T.J. Kim, S.J. Lee, S.-H. Oh, Y.S. Kim, I.K. Song, “A Synergistic Effect of α-Bi2Mo3O12 and γ-Bi2MoO6 Catalysts in the Oxidative Dehydrogenation of C4 Raffinate-3 to 1,3-Butadiene”, Journal of Molecular Catalysis A:Chemical, 271(1-2), pp. 261-265 (2007).
[14] H. Kim, J.C Jung, S.H. Yeom, K.-Y. Lee, J. Yi, I.K. Song, “Immobilization of a Heteropolyacid Catalyst on the Aminopropyl-functionalized Mesostructured Cellular Foam (MCF) Silica”, Materials Research Bulletin, 42(12), pp. 2132-2142 (2007).
[13] H. Kim, J.C. Jung, D.R. Park, S.-H. Baeck, I.K. Song, “Preparation of H5PMo10V2O40 (PMo10V2) Catalyst Immobilized on Nitrogen-containing Mesoporous Carbon (N-MC) and Its Application to the Methacrolein Oxidation”, Applied Catalysis A:General, 320, pp. 159-165 (2007).
[12] K.W. La, J.C. Jung, H. Kim, S.-H. Baeck, I.K. Song, “Effect of Acid-Base Properties of H3PW12O40/CexTi1-xO2 Catalysts on the Direct Synthesis of Dimethyl Carbonate from Methanol and Carbon Oxide: A TPD Study of H3PW12O40/CexTi1-xO2 Catalysts”, Journal of Molecular Catalysis A:Chemical, 269(1-2), pp. 41-45 (2007).
[11] J.C. Jung, H. Kim, Y.S. Kim, Y.-M. Chung, T.J. Kim, S.J. Lee, S.-H. Oh, I.K. Song, “Catalytic Performance of Bismuth Molybdate Catalysts in the Oxidative Dehydrogenation of C4 Raffinate-3 to 1,3-Butadiene”, Applied Catalysis A:General, 317(2), pp. 244-249 (2007).
[10] J.C. Jung, H. Kim, Y.-M. Chung, T.J. Kim, S.J. Lee, S.-H. Oh, Y.S. Kim, I.K. Song, “Unusual Catalytic Behavior of b-Bi2Mo2O9 in the Oxidative Dehydrogenation of n-Butene to 1,3-Butadiene”, Journal of Molecular Catalysis A:Chemical, 264 (1-2), pp. 237-240 (2007).
[9] M.H. Youn, D.R. Park, J.C. Jung, H. Kim, M.A. Barteau, I.K. Song, “Reduction Potentials of Heteropolyacid (HPA) Catalysts Probed by Scanning Tunneling Microscopy and UV-visible Spectroscopy”, Korean Journal of Chemical Engineering, 24(1), pp. 51-54 (2007).
[8] J.C. Jung, H. Kim, A.S. Choi, Y.-M. Chung, T.J. Kim, S.J. Lee, S.-H. Oh, I.K. Song, “Effect of pH in the Preparation of γ-Bi2MoO6 for Oxidative Dehydrogenation of n-Butene to 1,3-Butadiene: Correlation between Catalytic Performance and Oxygen Mobility of γ-Bi2MoO6”, Catalysis Communications, 8(3), pp. 625-628 (2007).
[7] J.C. Jung, H. Kim, A.S. Choi, Y.-M. Chung, T.J. Kim, S.J. Lee, S.-H. Oh, I.K. Song, “Preparation and Characterization of Bismuth Molybdate Catalyst for Oxidative Dehydrogenation of n-Butene into 1,3-Butadiene”, Solid State Phenomena, 119, pp. 251-254 (2007).
[6] H. Kim, J.C. Jung, P. Kim, K.-Y. Lee, S.H. Yeom, I.K. Song, “Preparation and Characterization of Surface Modified MCF (Mesostructured Cellular Foam) Silica for the Immobilization of Heteropolyacid Catalyst”, Solid State Phenomena, 119, pp. 139-142 (2007).
[5] H. Kim, J.C. Jung, P. Kim, S.H. Yeom, K.-Y. Lee, I.K. Song, “Preparation of H3PMo12O40 Catalyst Immobilized on Surface Modified Mesostructured Cellular Foam (SM-MCF) Silica and Its Application to the Ethanol Conversion Reaction”, Journal of Molecular Catalysis A:Chemical, 259(1-2), pp. 150-155 (2006).
[4] J.C. Jung, H. Kim, A.S. Choi, Y.-M. Chung, T.J. Kim, S.J. Lee, S.-H. Oh, I.K. Song, “Preparation, Characterization, and Catalytic Activity of Bismuth Molybdate Catalysts for the Oxidative Dehydrogenation of n-Butene into 1,3-Butadiene”, Journal of Molecular Catalysis A:Chemical, 259(1-2), pp. 166-170 (2006).
[3] H. Kim, M.H. Youn, J.C. Jung, I.K. Song, “UV-visible Absorption Edge Energy of Heteropolyacids (HPAs) as a Probe of Catalytic Performance of HPAs in the Oxidative Dehydrogenation of Isobutyric Acid”, Journal of Molecular Catalysis A:Chemical, 252(1-2), pp. 252-255 (2006).
[2] H. Kim, J.C. Jung, P. Kim, K.-Y. Lee, S.H. Yeom, I.K. Song, “Preparation of Heteropolyacid/Carbon Catalyst and Its Application to Methacrolein Oxidation”, Studies in Surface Science and Catalysis, 162, pp. 801-808 (2006).
[1] H. Kim, J.C. Jung, S.H. Yeom, K.-Y. Lee, I.K. Song, “Preparation of H3PMo12O40 Catalyst Immobilized on Polystyrene Support and Its Application to the Methacrolein Oxidation”, Journal of Molecular Catalysis A:Chemical, 248(1-2), pp. 21-25 (2006).