Articles

[67] M. Kim (1st), S. H. Kim, and J. Kim (*), "~", in preparation.

[66] J. Kim (1st), M. Kim (1st), K. Jeong, and J. Kim (*), "~", in preparation.

[65] M. Kim (1st), J. Kim, S. H. Kim (*), and J. Kim (*), "~", under being drafted.

[64] S. H. Park (1st), S. Lee (1st), and J. Kim (*), "~", draft being written-up.

[63] S. Lee (1st), S. H. Park, and J. Kim (*), "~", under review.

[62] M. Kim (1st), H. Lee (1st), J. Kim, H. Yu, T. Yu (*), K. Jeong (*), and J. Kim (*), "Reinventing Prime Reactive Oxygen Species Evolved from H2O2 Heterolysis on FeOCl via SiO2 Encapsulation", Journal of Alloys and Compounds, 2024, under minor revision.

[61] S. Lee (1st), J. Choi, H. P. Ha, J.-H. Lee, J. Park, and J. Kim (*), "Unveiling the Catalytic Merits of LaV3O9 over Conventional LaVO4 Polymorphs to Boost Desired Kinetics of Humid NOX Reduction and Poison Disintegration", ACS Catalysis, 14, 2024, 3349-3368 [link].

• Selected as a Supplementary Cover

• Released to the Press on 3/6/2024 [link]

[60] U. Yoon (1st), J. Kim, S. H. Kim, and K. Jeong,  "Optimal density-functional theory method for zinc-amino acid complexes determined by analyzing structural and Fourier-transform infrared spectroscopy data", RSC Advances, 14, 2024, 1051-1055 [link]. 

[59] S. Lee (1st), H. P. Ha, J.-H. Lee, and J. Kim (*), "Uncovering the Centrality of Mono-Dentate SO32-/SO42- Modifiers Grafted on a Metal Vanadate in Accelerating Wet NOX Reduction and Poison Pyrolysis", Journal of Hazardous Materials, 460, 2023, 132278 [link].

[58] M. Kim (1st), H. Noh (1st), J.-H. Lee, T. Yu (*), and J. Kim (*), "Grasping Pros and Cons of SiO2 Proximal to Lewis Acidic Metal Cations in Activating H2O2 Heterolysis under Electric Environments ", Applied Surface Science, 631, 2023, 157557 [link].

[57] S. Lee (1st), H. P. Ha, J.-H. Lee, and J. Kim (*), "Unlocking the Significance of High H2O Resistance for Nickel Vanadate Phases to Improve Kinetic Parameters or Consequences of Catalytic NOX Reduction and Poison Pyrolysis", Journal of Materials Chemistry A,11, 2023, 12062-12079 [link].

• Selected as an Outside Frontcover

• Released to the Press on 7/5/2023 [link] 

[56] M. Kim (1st), M. A. M. Rashid (1st), Y. J. Choe, S. H. Kim, J.-H. Lee, K. Jeong (*), and J. Kim (*), "Metal-Organic Framework Modulated to Site-Isolate Cl• Pendants via Radical Inter-Conversion for Disintegrating Hard-to-Ionize Organic Wastes", Journal of Materials Chemistry A, 11, 2023, 9436-9454 [link].

• Selected as an Inside Frontcover 

• Released to the Press on 5/8/2023 [link]

[55] J. Lee (1st), K.-B. Jang (1st), S. Lee (1st), C. B. Mo, H.-K. Kim, K. R. Park, J. Kim, J. Bang, I. C. Jung (*), J. C. Kim (*), and S. Mhin (*), "Mechanical properties of TiC reinforced MgO-ZrO2 composites via spark plasma sintering", Ceramics International, 49, 2023, 17255-17260 [link].

[54] Y. J. Choe (1st), S. Lee, M. Kim, S. H. Kim, I.-S. Choi, K. Jeong (*), and J. Kim (*), "Deploying Radical Inter-Transition from •OH to Supported NO3• on Mono-Dentate NO3--Modified, Non-Reducible ZrO2 to Sustain Fragmentation of Aqueous Contaminants", Separation and Purification Technology, 310, 2023, 123146 [link].

[53] D. H. Kim (1st), S.-H. Oh (1st), H. P. Ha, Y.-C. Joo (*), and J. Kim (*), "Unravelling Rate-Determining Step and Consequence of O2- or H2O-Assisted, Wet CO Transformation  on Catalytic CuO-CeO2 Domains via Interfacial Engineering", Applied Surface Science, 614, 2023, 156099 [link].

[52] M. Kim (1st), J. Park, S. H. Kim, J.-H. Lee, K. Jeong (*), and J. Kim (*), "Metal-Organic Framework-Derived ZrO2 on N/S-Doped Porous Carbons for Mechanistic and Kinetic Inspection of Catalytic H2O2 Homolysis", Carbon, 203, 2023, 630-649 [link].

[51] Y. J. Choe (1st), S. H. Kim, K. Jeong (*), and J. Kim (*), "Steering •OH-Triggered Radicalization of Surface Phosphate Functionality and Its Protonated Analogues to Accelerate Mineralization of Aqueous Organic Wastes", Chemical Engineering Journal, 455, 2023, 140537 [link].

• Released to the Press on 5/8/2023 [link]

[50] T. T. Le (1st), V. C. Hoang (1st), W. Zhang, J. M. Kim, J. Kim, G.-H. Moon, and S. H. Kim (*), "Mesoporous Sulfur-Modified Metal Oxide Cathodes for Efficient Electro-Fenton Systems", Chemical Engineering Journal Advances, 12, 2022, 100371 [link].

[49] S. Lee (1st), J.-H. Lee, H. P. Ha (*), and J. Kim (*), “Contrasting Catalytic Functions of Metal Vanadate and Oxide Composite Analogue for NH3-Assited, Selective NOX Transformation”, Chemistry of Materials, 34, 2022, 1078-1097 [link].

• Released to the Press on 3/15/2022 [link]

[48] J. Kim (1st/*), D. H. Kim (1st), J. Park, K. Jeong, and H. P. Ha (*), “Decrypting Catalytic NOX Activation and Poison Fragmentation Routes Boosted by Mono- and Bi-Dentate Surface SO32-/SO42- Modifiers under a SO2-Containing Flue Gas Stream”, ACS Catalysis, 12, 2022, 2086-2107 [link].

• Selected as a Supplementary Cover 

• Released to the Press on 3/15/2022 [link] 

[47] J. Kim (1st/*), Y. J. Choe (1st), S. H. Kim, I.-S. Choi, and K. Jeong (*), “Deciphering Evolution Pathway of Supported NO3• Enabled via Radical Transfer from •OH to Surface NO3- Functionality for Oxidative Degradation of Aqueous Contaminants”, JACS Au, 1, 2021, 1158-1177 [link].

• Released to the Press on 7/20/2021 [link]

[46] J. Kim (1st/*), K. B. Nam (1st), and H. P. Ha (*), “Comparative Study of HSOA-/SOA2- versus H3-BPO4B- Functionalities Anchored on TiO2-Supported Sb Oxide-V Oxide-Ce Oxide Composite Used for NOX Activation under Low Thermal Energies”, Journal of Hazardous Materials, 416, 2021, 125780 [link].

[45] H. J. An (1st), D. H. Kim (1st), H. P. Ha (*), and J. Kim (*), “NOX Reduction Consequences of Lanthanide-Substituted Vanadates Functionalized with S or P Poisons under Oxidative Environments”, Journal of Materials Chemistry A, 9, 2021, 8350-8371 [link]. 

• Selected as an Inside Backcover

[44] J. Kim (1st/*), S. Lee (1st), and H. P. Ha (*), “Supercritical Carbon Dioxide Extraction-Mediated Amendment of a Manganese Oxide Surface Desired to Selectively Transform Nitrogen Oxides and/or Ammonia”, ACS Catalysis, 11, 2021, 767-786 [link]. 

• Selected as a Supplementary Cover

[43] J. Kim (1st/*), Y. J. Choe (1st), and S. H. Kim, “Tailoring Lewis Acidic Metals and SO42- Functionalities on Bimetallic Mn-Fe Oxo-Spinels to Exploit Supported SO4•- in Aqueous Pollutant Fragmentation”, Chemical Engineering Journal, 413, 2021, 127550 [link].

[42] J. Kim (1st/*), S. Lee (1st), D. W. Kwon, and H. P. Ha (*), “Er Composition (X)-Mediated Catalytic Properties of Ce1-XErXVO4 Surfaces for Selective Catalytic NOX Reduction with NH3 at Elevated Temperatures”, Catalysis Today, 359, 2021, 65-75 [link].

[41] Y. J. Choe (1st), J. Kim, J. Y. Byun, and S. H. Kim (*), “An Electro-Fenton System with Magnetite-Coated Stainless Steel Mesh as Cathode”, Catalysis Today, 359, 2021, 16-22 [link]. 

[40] D. W. Kwon (1st/*), S. Lee (1st), J. Kim, K.-W. Lee, and H. P. Ha (*), “Influence of Supports Composition for Enhancing the Performance of Ce-V on TiO2 Comprising Tungsten-Silica for NH3-SCR”, Catalysis Today, 359, 2021, 112-123 [link].

[39] E. Mahayoni (1st), S. Min, J. Kim, K. Jeong (*), and S. H. Kim (*), “Effective Degradation of Sulfur Mustard Simulant Using Novel Sulfur-Doped Mesoporous Zinc Oxide under Ambient Conditions”, Journal of Hazardous Materials, 411, 2021, 125144 [link].

[38] H.-H. Kim (1st), J. Y. Seo (1st), H. Kim, S. Jeong, K.-Y. Baek, J. Kim, S. Min, S. H. Kim (*), K. Jeong (*), “Decomposition of the Simulant 2-Chloroethyl Ethyl Sulfide Blister Agent under Ambient Conditions Using Metal Organic Frameworks”, ACS Applied Materials & Interfaces, 13, 2021, 3782-3792 [link].

[37] Y. J. Choe (1st), J.-S. Kim (1st), H. Kim, and J. Kim (*), “Open Ni Site Coupled with SO42- Functionality to Prompt Radical Interconversion of •OH ↔ SO4•- Exploited to Decompose Refractory Pollutant”, Chemical Engineering Journal, 400, 2020, 125971 [link].

[36] J. Kim (1st/*), D. H. Kim, and H. P. Ha (*), “Investigating Multi-Functional Traits of Metal-Substituted Vanadate Catalysts in Expediting NOX Reduction and Poison Degradation at Low Temperatures”, Journal of Hazardous Materials, 397, 2020, 122671 [link].

[35] J. Kim (1st/*), D. H. Kim (1st), D. W. Kwon, K.-Y. Lee, and H. P. Ha (*), “Unveiling the Traits of Rare Earth Metal (RM)-Substituted Bimetallic Ce0.5RM0.5V1O4 Phases to Activate Selective NH3 Oxidation and NOX Reduction”, Applied Surface Science, 518, 2020, 146238 [link].

[34] M. Kim (1st), S. H. Kim, J.-H. Lee, and J. Kim (*), “Unravelling Lewis Acidic and Reductive Characters of Normal and Inverse Nickel-Cobalt Thiospinels in Directing Catalytic H2O2 Cleavage”, Journal of Hazardous Materials, 392, 2020, 122347 [link].

[33] J. Kim (1st/*), Y. J. Choe, S. H. Kim, S.-C. Lee, and S. Bhattacharjee, “Grasping Periodic Trend and Rate-Determining Step for S-Modified Metals of Metal Sulfides Deployable to Produce •OH via H2O2 Cleavage”, Applied Catalysis B, 253, 2019, 60-68 [link].

• Released to the Press on 5/14/2019 [link]

[32] J. Kim (1st/*), Y. J. Choe, S. H. Kim and K. Jeong, “Enhancing the Decomposition of Refractory Contaminants on SO42--Functionalized Iron Oxide to Accommodate Surface SO4•- Generated via Radical Transfer from •OH”, Applied Catalysis B, 252, 2019, 62-76 [link]. 

• Released to the Press on 4/21/2019 [link]

[31] D. W. Kwon (1st/*), J. Kim, and H. P. Ha (*), “Establishment of Surface/Bulk-Like Species Functionalization by Controlling the Sulfation Temperature of Sb/V/Ce/Ti for NH3-SCR”, Applied Surface Science, 481, 2019, 1503-1514 [link].

[30] J. Kim (1st/*), S. Lee (1st), D. W. Kwon, and H. P. Ha (*), “SO32-/SO42--Functionalization-Tailorable Catalytic Surface Features of Sb-Promoted Cu3V2O8 on TiO2 for Selective Catalytic Reduction of NOX with NH3”, Applied Catalysis A, 570, 2018, 355-366 [link].

[29] J. Kim (1st/*), D. H. Kim, D. W. Kwon, and H. P. Ha (*), “Rational Selection of Fe2V4O13 over FeVO4 as a Preferred Active Site on Sb-Promoted TiO2 for Catalytic NOX Reduction by NH3”, Catalysis Science and Technology, 8, 2018, 4774-1487 [link].

[28] J. Kim (1st), S. Park (1st), Y. J. Won, C. Kim, M. Choi, W. Jung, K. S. Lee, J. G. Na, S.-H. Cho, S. Y. Lee (*), and J. S. Lee (*), "Epoxide-Functionalized, Poly (Ethylenimine)-Confined Silica/Polymer Module Affording Sustainable CO2 Capture in Rapid Thermal Swing Adsorption", Industrial & Engineering Chemistry Research, 57, 2018, 13923-13931 [link].

[27] J. Lee (1st), J. C. Kim (1st), J. Kim, R. K. Singh, A. C. Arjunan (*), and H. Lee (*), “Evaluation of Subsurface Damage Inherent to Polished GaN Substrates Using Depth-Resolved Cathodoluminescence Spectroscopy”, Thin Solid Films, 660, 2018, 516-520 [link].

[26] J. C. Kim (1st), J. Kim, Y. Xin, J. Lee, Y.-G. Kim, G. Subhash, R. K. Singh, A. C. Arjunan (*), and H. Lee (*), “Micro-Architecture Embedding Ultra-Thin Interlayer to Bond Diamond and Silicon via Direct Fusion”, Applied Physics Letters, 112, 2018, 211601 [link].

[25] J. Kim (1st), D. W. Kwon, S. Lee, and H. P. Ha (*), “Exploration of Surface Properties of Sb-Promoted Copper Vanadate Catalysts for Selective Catalytic Reduction of NOX by NH3”, Applied Catalysis B, 236, 2018, 314-325 [link]. 

• Released to the Press on 6/5/2018 [link]

• 2019년 국가연구개발 우수성과 100선 선정 on 10/7/2019

[24] Y. J. Choe (1st), J. Y. Byun, S. H. Kim (*), and J. Kim (*), “Fe3S4/Fe7S8-Promoted Degradation of Phenol via Heterogeneous, Catalytic H2O2 Scission Mediated by S-Modified Surface Fe2+ Species”, Applied Catalysis B, 233, 2018, 272-280 [link].

[23] P. Menha (1st), P. M. Barboun, F. A. Hererra, J. Kim, P. Rumbach, D. B. Go (*), J. C. Hicks (*), and W. F. Schneider (*), “Overcoming Ammonia Synthesis Scaling Relations with Plasma-Enabled Catalysis”, Nature Catalysis, 1, 2018, 269-275 [link].

[22] J. C. Kim (1st), J. Lee, J. Kim, R. K. Singh, P. Jawali, G. Subhash, H. Lee (*), and A. C. Arjunan (*), “Challenging Endeavor to Integrate Gallium and Carbon via Direct Bonding to Evolve GaN on Diamond Architecture”, Scripta Materialia, 142, 2018, 138-142 [link].

[21] J. Kim (1st), D. B. Go, and J. C. Hicks (*), “Synergetic effects of Plasma-Catalyst Interactions for CH4 Activation”, Physical Chemistry Chemical Physics, 19, 2017, 13010-13021 [link].

[20] J. Kim (1st), D. J. Rensel (1st), V. Jain (1st), Y. Bonita, N. Rai (*), and J. C. Hicks (*), “Composition-Directed FeXMo2-XP Bimetallic Catalysts for Hydrodeoxygenation Reactions”, Catalysis Science & Technology, 7, 2017, 1857-1867 [link].

[19] D. J. Rensel (1st), J. Kim, Y. Bonita, and J. C. Hicks (*), “Investigating the Multifunctional Nature of Bimetallic FeMoP Catalysts Using Dehydration and Hydrogenolysis Reactions”, Applied Catalysis A, 524, 2016, 85-93 [link].

[18] J. Kim (1st), M. S. Abbott, D. B. Go, and J. C. Hicks (*), “Enhancing C-H Bond Activation of Methane via Temperature-Controlled, Catalyst-Plasma Interactions”, ACS Energy Letters, 1, 2016, 94-99 [link].

[17] J. Kim (1st), N. D. McNamara, and J. C. Hicks (*), “Catalytic Activity and Stability of Carbon supported V Oxides and Carbides Synthesized via Pyrolysis of MIL-47 (V)”, Applied Catalysis A, 517, 2016, 141-150 [link].

[16] N. D. McNamara (1st), J. Kim, and J. C. Hicks (*), “Controlling the Pyrolysis Conditions of Microporous/Mesoporous MIL-125 to Synthesize Porous, Carbon-Supported Ti Catalysts with Targeted Ti Phases for the Oxidation of Dibenzothiophene”, Energy & Fuels, 30, 2015, 594-602 [link].

[15] J. Kim (1st), A. G. Oliver, and J. C. Hicks (*), “Enhanced CO2 Capture Capacities and Efficiencies with N-Doped Nanoporous Carbons Synthesized from Solvent-Modulated, Pyridinedicarboxylate-Containing Zn-MOFs”, CrystEngComm, 17, 2015, 8015-8020 [link].

[14] J. Kim (1st/*), D. O. Kim (1st), D. W. Kim, and K. Sagong, “Synthesis of Zn-MOF Incorporating Titanium-Hydrides as Active Sites Binding H2 Molecules”, Journal of Solid State Chemistry, 230, 2015, 110-117 [link].

[13] J. Kim (1st), A. G. Oliver, G. T. Neumann, and J. C. Hicks (*), “Zn-MOFs Containing Pyridine and Bipyridine Carboxylate Organic Linkers and Open Zn2+ Sites”, European Journal of Inorganic Chemistry, 2015, 2015, 3011-3018 [link].

[12] J. Kim (1st), G. T. Neumann, N. D. McNamara, and J. C. Hicks (*), “Exceptional Control of Carbon-Supported Transition Metal Nanoparticles Using Metal-Organic Frameworks”, Journal of Materials Chemistry A, 2, 2014, 14014-14027 [link].

[11] J. Kim (1st), N. D. McNamara (1st), T. H. Her, and J. C. Hicks (*), “Carbothermal Reduction of Ti-Modified IRMOF-3: an Adaptable Synthetic Method to Support Catalytic Nanoparticles on Carbon”, ACS Applied Materials and Interfaces, 5, 2013, 11479-11487 [link].

[10] J. Kim (1st), D. O. Kim (1st/*), D. W. Kim, and K. Sagong, “Synthesis of MOF Having Hydroxyl Functional Side Groups and Optimization of Activation Process for the Maximization of Its BET Surface Area”, Journal of Solid State Chemistry, 197, 2013, 261-265 [link].

[9] J. Kim (1st/*), D. O. Kim (1st), D. W. Kim, J. Park, and M. S. Jung, “High-Yield Postsynthetic Modification of MOF with Organic-Metal Precursors”, Inorganica Chimica Acta, 390, 2012, 22-25 [link].

[8] D. O. Kim (1st), J. Park (*), G. Ahn, H. Jeon, J. Kim, D. W. Kim, M. Jung, S. Lee, and S. Shin, “Synthesis of MOF Having Functional Side Group”, Inorganica Chimica Acta, 370, 2011, 76-81 [link].

[7] J. B. Joo (1st), P. Kim, W. Kim, J. Kim, N. D. Kim, and J. Yi (*), “Simple Preparation of Hollow Carbon Sphere via Templating Method”, Current Applied Physics, 8, 2008, 814-817 [link].

[6] J. Kim (1st), J. B. Joo (1st), P. Kim, and J. Yi (*), “Simple Preparation of Tungsten Carbide Supported on Carbon for Use as a Catalyst Support in a Methanol Electro-Oxidation”, Materials Letters, 62, 2008, 3497-3499 [link].

[5] P. Kim (1st), J. B. Joo, W. Kim, J. Kim, I. K. Song, and J. Yi (*), “Preparation of Highly Dispersed Pt Catalyst Using Sodium Alkoxide as a Reducing Agent and Its Application to the Methanol Electro-Oxidation”, Journal of Molecular Catalysis A, 263, 2007, 15-19 [link].

[4] P. Kim (1st), J. B. Joo, W. Kim, J. Kim, I. K. Song, and J. Yi (*), “Graphitic Spherical Carbon as a Support for a PtRu-Alloy Catalyst in the Methanol Electro-Oxidation”, Catalysis Letters, 112, 2006, 213-218 [link].

[3] P. Kim (1st), J. B. Joo, J. Kim, and J. Yi (*), “Sucrose-Derived Graphitic Porous Carbon Replicated by Mesoporous Silica”, Korean Journal of Chemical Engineering, 23, 2006, 1063-1066 [link].

[2] P. Kim (1st), J. B. Joo, W. Kim, J. Kim, I. K. Song, and J. Yi (*), “NaBH4-Assisted Ethylene Glycol Reduction for the Preparation of a Carbon-Supported Pt Catalyst for Methanol Electro-Oxidation”, Journal of Power Sources, 160, 2006, 987-990 [link].

[1] J. B. Joo (1st), P. Kim, W. Kim, J. Kim, and J. Yi (*), “Preparation of Mesoporous Carbon Templated by Silica Particle for Use as a Catalyst Support of Polymer Electrolyte Membrane Fuel Cell”, Catalysis Today, 111, 2006, 171-175 [link].

[5] S. Lee (1st) and J. Kim (*), "선택적 NOX 환원촉매의 SO2 저항성 개선 연구 동향", Catalysis, 39 (1), 2023, 1-7 [link].

[4] S. Lee (1st) and J. Kim (*), "Inspecting Promotive Functions of Antimony Oxides for NH3-Assisted Selective Catalytic NOX Reduction", Ceramist, 25, 2022, 159-171 [link].

[3] H. J. Jeon (1st), D. O. Kim (*), J. S. Park, J. Kim, D. W. Kim, M. S. Jung, S. W. Shin, ad S. W. Lee, “Synthesis of Hyper Crosslinked Polymer Particle Having Hydroxyl Group”, Polymer Korea, 35, 2011, 66-71 [link].

[2] J. Kim (1st), J. B. Joo (1st), P. Kim, and J. Yi (*), “Molybdenum and Tungsten Promoted Carbons for Use as Catalyst Supports in Methanol Electro-Oxidation”, Journal of Nanoscience and Nanotechnology, 10, 2010, 3397-3401 [link].

[1] J. Kim (1st), P. Kim, J. B. Joo, W. Kim, and J. Yi (*), “Time-Dependent Modeling of Performance Degradation for PEMFC Single Cell System to Evaluate the Cell Performance and Durability: effects of CO poisoning”, Clean Technology, 14, 2008, 61-68 [link].