Publications

Publications

2026

  • 248

    Laser-engineered Ag/Ag oxide interfaces for tunable CO2 reduction: Mechanistic insights from experiment and theory

    So Young Kim; Chae-Hyeon Lee; Ilsun Yoon; Choong Kyun Rhee; Hee-Joon Chun; Youngku Sohn

    Mater. Today Energy 2026, 59, 102298. DOI ↗

  • 247

    Switching CO2 reduction pathways: Iron drives copper toward formate selectivity

    Hyeonji Lee; So Young Kim; Gaeun Yun; Yunji Gwon; Sooyeon Bae; Huieun Shim; Jaehee Shin; Choong Kyun Rhee; Youngku Sohn

    Appl. Surf. Sci. 2026, 731, 166390. DOI ↗

  • 246

    Synergistic ligand–photon interactions for enhanced CO2 electroreduction on Cu-based electrodes

    Huieun Shim; Gaeun Yun; Yunji Gwon; Sooyeon Bae; Hyeonji Lee; Jaehee Shin; Hyojin Nam; Choong Kyun Rhee; Weixin Huang; Youngku Sohn

    Surf. Sci. Technol. 2026, 4, 18. DOI ↗

  • 245

    Nonequilibrium Photothermal Reactions Under Pulsed Laser Excitation: Mechanisms, Dynamics, and Applications

    Huieun Shim; Sy Khiem Nguyen; Hyeonji Lee; Jaehee Shin; Ilsun Yoon; Youngku Sohn

    ChemCatChem 2026, 18, e01870. DOI ↗

  • 244

    Progress in Advanced Photocatalysis and Photoelectrocatalysis

    Youngku Sohn; Mohammad Mansoob Khan

    J. Saudi Chem. Soc. 2026, 30, 5. DOI ↗

2025

  • 243

    Laser-engineered interfacial modulation of In, Sn, and InSn electrodes for enhanced electrochemical CO2 reduction

    So Young Kim; Gaeun Yun; Yunji Gwon; Sooyeon Bae; Seon Young Hwang; Choong Kyun Rhee; Youngku Sohn

    Appl. Surf. Sci. 2025, 713, 164324. DOI ↗

  • 242

    Photon–ligand–surface coupling drives C–C bond chain growth in electrochemical CO2 and CO reduction

    Huieun Shim; Gaeun Yun; Yunji Gwon; Sooyeon Bae; Choong Kyun Rhee; Ilsun Yoon; Youngku Sohn

    Mater. Today Energy 2025, 54, 102116. DOI ↗

  • 241

    Selective CO2 and CO electroreduction to C2–C7 hydrocarbons on Pd–Au electrodes: Role of interfacial impedance and CO adsorption modulation

    Hyeonji Lee; Seon Young Hwang; Gaeun Yun; So Young Kim; Hui Eun Shim; Choong Kyun Rhee; Youngku Sohn

    Appl. Surf. Sci. 2025, 710, 163939. DOI ↗

  • 240

    Electrochemical reduction of CO2 and CO over Au on molybdenum: Insights into interfacial reaction kinetics and electronic structures

    Jihye Lee; Huieun Shim; Gaeun Yun; Hyeonji Lee; Yunji Gwon; Choong Kyun Rhee; Youngku Sohn

    Electrochim. Acta 2025, 540, 147245. DOI ↗

  • 239

    Ag on Ni supports: In situ impedance analysis and Fischer–Tropsch mimicry via electrochemical CO2 and CO reduction

    Wookyeong Kang; Jaehee Shin; Yunji Gwon; Sooyeon Bae; Choong Kyun Rhee; Youngku Sohn

    Mater. Today Energy 2025, 53, 102005. DOI ↗

  • 238

    Interface engineering of Pt-deposited Cu electrodes via laser ablation for enhanced electrochemical CO2 reduction to multi-carbon products

    Sooyeon Bae; Gaeun Yun; Yunji Gwon; So Young Kim; Youngku Sohn

    Advances in Industrial and Engineering Chemistry 2025, 1, 19. DOI ↗

  • 237

    Electrochemical Fischer–Tropsch chemistry

    Seon Young Hwang; Gaeun Yun; Boon Siang Yeo; Youngku Sohn

    Chem. Eng. J. 2025, 520, 165806. DOI ↗

  • 236

    Electrochemical CO2 and CO reduction on Au/NiCr electrodes: Fischer–Tropsch mimicry and kinetic insights from in situ impedance spectroscopy

    Hyerin Shin; So Young Kim; Gaeun Yun; Hyeonji Lee; Huieun Shim; Yunji Gwon; Sooyeon Bae; Jaehee Shin; Choong Kyun Rhee; Youngku Sohn

    J. Alloys Compd. 2025, 1039, 183407. DOI ↗

  • 235

    Electrocatalytic CO2 reduction over Ag/CuSn Electrodes: Modulation of C1, C2, and C3+ products

    Yunji Gwon; Seon Young Hwang; Sooyeon Bae; Gaeun Yun; So Young Kim; Choong Kyun Rhee; Youngku Sohn

    J. Ind. Eng. Chem. 2025, 146, 468-483. DOI ↗

  • 234

    Electrochemical Recycling of Poly(ethylene terephthalate): Controlling Ni/Cu Electrode Oxide Layers through Laser Treatment

    Sooyeon Bae; Seon Young Hwang; Gaeun Yun; Yunji Gwon; So Young Kim; Choong Kyun Rhee; Youngku Sohn

    ACS Appl. Energy Mater. 2025, 8, 9604-9616. DOI ↗

  • 233

    Laser ablation-controlled Au/Cu interfaces for modulating C1, C2, and C3+ chemistry in electrochemical CO2 reduction

    Hui Eun Shim; Gaeun Yun; Seon Young Hwang; So Young Kim; Choong Kyun Rhee; Youngku Sohn

    Mater. Today Energy 2025, 49, 101842. DOI ↗

  • 232

    Modulating electrochemical CO2 reduction products by precise tuning of CuZn surface oxidation states

    Yunji Gwon; Seon Young Hwang; So Young Kim; Sooyeon Bae; Gaeun Yun; Choong Kyun Rhee; Youngku Sohn

    Mater. Today Energy 2025, 49, 101831. DOI ↗

  • 231

    Cellulose-Based SERS Substrate for Vapor-Phase Thiol Detection with PCA for Enhanced Chemical Selectivity

    Ba-Thong Trinh; Sy Khiem Nguyen; Dayeon Kim; Huu-Quang Nguyen; Jaebeom Lee; Youngku Sohn; Ilsun Yoon

    Chemosensors 2025, 13, 101. DOI ↗

  • 230

    Insights into MXenes and MXene-based heterostructures for various photocatalytic applications

    Shaikh Parwaiz; Youngku Sohn; Mohammad Mansoob Khan

    Mater. Sci. Semicond. Process. 2025, 186, 109099. DOI ↗

  • 229

    Electrochemical CO2 reduction chemistry of C1 and C2+ products on Cu/Zn electrodes via galvanic replacement

    Jaehee Shin; Yunji Gwon; Seon Young Hwang; Sooyeon Bae; So Young Kim; Choong Kyun Rhee; Youngku Sohn

    J. Alloys Compd. 2025, 1010, 177660. DOI ↗

2024

  • 228

    NiO@GaN nanorods-based core-shell heterostructure for enhanced photoelectrochemical water splitting via efficient charge separation

    Kedhareswara Sairam Pasupuleti; Roshani Awanthika Jayarathna; Seon Young Hwang; Pham Thi Minh Thu; Devthade Vidyasagar; Yun-Hae Shim; Eui-Tae Kim; Youngku Sohn; Young Heon Kim; Moon-Deock Kim

    J. Alloys Compd. 2024, 1009, 176882. DOI ↗

  • 227

    Exploring C1-C3 variations and Fischer–Tropsch chemistry via electrochemical CO2 reduction on electrodeposited Cu/Ag and Ag/Cu electrodes

    Seon Young Hwang; Gaeun Yun; So Young Kim; Yunji Gwon; Sooyeon Bae; Choong Kyun Rhee; Youngku Sohn

    Electrochim. Acta 2024, 507, 145100. DOI ↗

  • 226

    Advances in Artificial Photosynthesis: The Role of Chalcogenides and Chalcogenide‐Based Heterostructures

    Ashmalina Rahman; Shaikh Parwaiz; Youngku Sohn; Mohammad Mansoob Khan

    ChemPhotoChem 2024, 9, e202400234. DOI ↗

  • 225

    Electrochemical reduction of nitrate to ammonia using Fe-based catalyst: Insights into N2, CO2, and CO environments

    Seon Young Hwang; Gaeun Yun; So Young Kim; Choong Kyun Rhee; Youngku Sohn

    J. Environ. Chem. Eng. 2024, 12, 114482. DOI ↗

  • 224

    Tailoring electrochemical CO2 reduction selectivity over CuSn by modulating surface oxidation state with infrared laser treatment

    Yunji Gwon; Seon Young Hwang; So Young Kim; Gaeun Yun; Sooyeon Bae; Choong Kyun Rhee; Youngku Sohn

    Chem. Eng. J. 2024, 499, 156752. DOI ↗

  • 223

    Dynamic recycling behavior of Cu/Zn-based electrodes in electrochemical CO2 reduction

    Seon Young Hwang; Gaeun Yun; So Young Kim; Choong Kyun Rhee; Youngku Sohn

    Appl. Surf. Sci. 2024, 670, 160628. DOI ↗

  • 222

    Electrochemical Fischer-Tropsch chemistry across transition metals: A paradigm shift in sustainable liquid fuel production

    Seon Young Hwang; Ju Young Maeng; Ilsun Yoon; Chang Woo Myung; Choong Kyun Rhee; Youngku Sohn

    Nano Energy 2024, 128, 109881. DOI ↗

  • 221

    Exploring Pd-Ag/Cu electrodes in electrochemical CO2 reduction: Insights into C1, C2, and C3+ chemistry

    Gaeun Yun; Seon Young Hwang; So Young Kim; Yunji Gwon; Sooyeon Bae; Choong Kyun Rhee; Youngku Sohn

    Appl. Surf. Sci. 2024, 665, 160279. DOI ↗

  • 220

    Exploring Direct Electrochemical Fischer–Tropsch Chemistry of C1–C7 Hydrocarbons via Perimeter Engineering of Au–SrTiO3 Catalyst

    Ju Hyun Yang; Gi Beom Sim; So Jeong Park; Choong Kyun Rhee; Chang Woo Myung; Youngku Sohn

    Adv. Energy Mater. 2024, 14, 2402062. DOI ↗

  • 219

    Electrochemical CO2 and CO reduction using Au/TiO2 model catalysts for syngas and Fischer-Tropsch chemistry

    So Young Kim; Seon Young Hwang; Gaeun Yun; Yunji Gwon; Sooyeon Bae; Choong Kyun Rhee; Youngku Sohn

    Int. J. Hydrogen Energy 2024, 80, 754-770. DOI ↗

  • 218

    Perovskite oxide nanoparticles: Dual role as supports for luminescent Eu(III) ions and photocatalysts for bisphenol degradation

    So Young Kim; Ju Young Maeng; Seon Young Hwang; Hyojin Hwang; Soohoon Choi; Jeongkwon Kim; Mohammad Mansoob Khan; Youngku Sohn

    Materials Chemistry and Physics 2024, 322, 129554. DOI ↗

  • 217

    Electrocatalytic CO2 Reduction for Dynamic C1, C2, and C3+ Chemistry over Electrodeposited Zn on Cu and CuZn Mesh Supports

    Sooyeon Bae; Seon Young Hwang; Gaeun Yun; Yunji Gwon; So Young Kim; Choong Kyun Rhee; Youngku Sohn

    Energy & Fuels 2024, 38, 15497-15514. DOI ↗

  • 216

    Gaseous ozone inactivation of Bacillus atrophaeus spores on ceramic and porcelain tiles

    Dokyung Kwon; Yongju Jo; Youngku Sohn; Jeongkwon Kim

    Journal of Analytical Science and Technology 2024, 15, 43. DOI ↗

  • 215

    Electrochemical CO2/CO reduction on Ag/Cu electrodes and exploring minor Fischer–Tropsch reaction pathways

    Gaeun Yun; Seon Young Hwang; Ju Young Maeng; Young Jun Kim; Choong Kyun Rhee; Youngku Sohn

    Appl. Surf. Sci. 2024, 649, 159179. DOI ↗

  • 214

    Cadmium sulfides: Electrochemical CO2 reduction and Fischer–Tropsch synthesis pathways

    Ju Young Maeng; Seon Young Hwang; So Young Kim; Choong Kyun Rhee; Youngku Sohn

    J. Environ. Chem. Eng. 2024, 12, 111645. DOI ↗

  • 213

    Ultraviolet Light‐Assisted Decontamination of Chemical Warfare Agent Simulant 2‐Chloroethyl Phenyl Sulfide on Metal‐Loaded TiO2/Ti Surfaces

    Hye Ji. Jang; Gaeun Yun; Huieun Shim; Seon Young Hwang; So Young Kim; Jeongkwon Kim; Heesoo Jung; Mohammad Mansoob Khan; Youngku Sohn

    ChemistryOpen 2024, 13, e202300246. DOI ↗

  • 212

    Opening Direct Electrochemical Fischer–Tropsch Synthesis Path by Interfacial Engineering of Cu Electrode with P-Block Elements

    Ju Hyun Yang; Seon Young Hwang; Ju Young Maeng; Go Eun Park; Seo Young Yang; Choong Kyun Rhee; Youngku Sohn

    ACS Applied Materials & Interfaces 2024, 16, 3368-3387. DOI ↗

  • 211

    CuNiZn vs CuZn Electrodes: Electrochemical CO2 Reduction, Role of Metal Elements, and Insights for C–C Coupling Chemistry

    Yunji Gwon; Seon Young Hwang; Go Eun Park; Sooyeon Bae; Gaeun Yun; Choong Kyun Rhee; Youngku Sohn

    ACS Appl. Energy Mater. 2024, 7, 614-628. DOI ↗

  • 210

    Electrochemical syngas production over Au/SrTiO3 and Fischer–Tropsch synthesis chemistry for long-chain hydrocarbons

    So Young Kim; Seon Young Hwang; Ju Young Maeng; Choong Kyun Rhee; Youngku Sohn

    Int. J. Hydrogen Energy 2024, 51, 571-587. DOI ↗

2023

  • 209

    Electrochemical reduction of CO2 and CO using interface-engineered Au/Ti electrodes for long-chain hydrocarbon production

    Young Jun Kim; Ju Young Maeng; Seon Young Hwang; Choong Kyun Rhee; Youngku Sohn

    Appl. Catal. B 2023, 338, 123017. DOI ↗

  • 208

    Unlocking long-chain hydrocarbons (C2–7) via direct electrochemical CO2 and CO reduction on balanced Au/Ni electrodes

    Young Jun Kim; Ju Young Maeng; Seon Young Hwang; Ju Hyun Yang; Ilsun Yoon; Chang Woo Myung; Choong Kyun Rhee; Youngku Sohn

    Nano Energy 2023, 118, 108995. DOI ↗

  • 207

    Ag–Sb/Cu by Galvanic Replacement: Electrochemical CO2 Reduction and Unveiling C3+ Hydrocarbon Pathways

    Sooyeon Bae; Seon Young Hwang; Gaeun Yun; Yunji Gwon; So Young Kim; Choong Kyun Rhee; Youngku Sohn

    J. Phys. Chem. C 2023, 127, 23601-23617. DOI ↗

  • 206

    Construction of type-II SnO2/InGaN nanorods heterostructure toward high photoelectrochemical performance

    C. Thota; S. Ramu; C. Gangadhara; G. Murali; J. H. Yang; D. P. Upare; N.-H. Bak; Y. K. Kshetri; Y. Sohn; M. Reddeppa; M.-D. Kim

    Appl. Phys. Lett. 2023, 123, 203903. DOI ↗

  • 205

    New reaction path for long-chain hydrocarbons by electrochemical CO2 and CO reduction over Au/stainless steel

    Seon Young Hwang; Ju Young Maeng; Go Eun Park; Seo Young Yang; So Young Kim; Choong Kyun Rhee; Youngku Sohn

    Chemosphere 2023, 338, 139616. DOI ↗

  • 204

    Electrochemical CO2 reduction on tin and its alloys: Insights from depth-profiling X-ray photoelectron spectroscopy

    Seo Young Yang; Ju Young Maeng; Seon Young Hwang; Go Eun Park; Choong Kyun Rhee; Youngku Sohn

    J. Alloys Compd. 2023, 960, 170903. DOI ↗

  • 203

    Unlocking the potential of gallium for electrochemical CO2 reduction and the role of overlayer nickel for C C coupling pathways

    Young Jun Kim; Gaeun Yun; Ju Young Maeng; Hye Ji Jang; Ilsun Yoon; Chang Woo Myung; Choong Kyun Rhee; Youngku Sohn

    J. Ind. Eng. Chem. 2023, 126, 317-326. DOI ↗

  • 202

    Electrochemical CO2 reduction over surface-modified Cd-based electrodes and reaction paths for long-chain hydrocarbons

    Ju Young Maeng; Seon Young Hwang; Choong Kyun Rhee; Youngku Sohn

    Appl. Surf. Sci. 2023, 631, 157576. DOI ↗

  • 201

    Electrochemical CO2 reduction versus CO reduction over Au/Ti electrocatalyts in phosphate buffer condition

    Ju Young Maeng; Seon Young Hwang; Young Jun Kim; Choong Kyun Rhee; Youngku Sohn

    Chem. Eng. J. 2023, 470, 143970. DOI ↗

  • 200

    Interfacial Electronic Structures and the Fischer–Tropsch Synthesis Path by Electrochemical CO2/CO Reduction for Ternary CuNiZn Alloys

    Go Eun Park; Hye Ji Jang; Ju Young Maeng; Seon Young Hwang; Seo Young Yang; Choong Kyun Rhee; Youngku Sohn

    ACS Appl. Energy Mater. 2023, 6, 7258-7273. DOI ↗

  • 199

    Electrochemical CO2/CO Reduction and C–C Coupling Path for Mimicking Fischer–Tropsch Synthesis over Cadmium Electrodes

    Ju Young Maeng; Seon Young Hwang; Young Jun Kim; Ilsun Yoon; Chang Woo Myung; Choong Kyun Rhee; Youngku Sohn

    J. Phys. Chem. C 2023, 127, 11448-11461. DOI ↗

  • 198

    Electrochemical CO2 Reduction over In Alloy Electrodes and Depth‐Profiled Interfacial Electronic Structures

    Seo Young Yang; Ju Young Maeng; Seon Young Hwang; Go Eun Park; Choong Kyun Rhee; Youngku Sohn

    ChemCatChem 2023, 15, e202300336. DOI ↗

  • 197

    Electrochemical CO2 Reduction over a MoS2/Mo Electrode

    Seon Young Hwang; Min Hee Joo; Ju Young Maeng; Go Eun Park; Seo Young Yang; Choong Kyun Rhee; Youngku Sohn

    Applied Science and Convergence Technology 2023, 32, 48-53. DOI ↗

  • 196

    The Ways for Bi on Pt to Enhance Formic Acid Oxidation

    Hyein Lee; Young Jun Kim; Youngku Sohn; Choong Kyun Rhee

    Journal of Electrochemical Science and Technology 2023, 14, 21-30. DOI ↗

  • 195

    Electrocatalytic syngas and photocatalytic long-chain hydrocarbon productions by CO2 reduction over ZnO and Zn-based electrodes

    Ju Young Maeng; Ju Hyun Yang; Hye Ji Jang; Min Hee Joo; Young Jun Kim; Choong Kyun Rhee; Youngku Sohn

    Appl. Surf. Sci. 2023, 609, 155349. DOI ↗

  • 194

    Eu(III)–BaTiO3 nanoparticles and BaTiO3/TiO2/Ti sheets; photocatalytic and electrocatalytic CO2 reduction

    Seon Young Hwang; Hye Ji Jang; Young Jun Kim; Ju Young Maeng; Choong Kyun Rhee; Youngku Sohn

    Mater. Sci. Semicond. Process. 2023, 153, 107134. DOI ↗

2022

  • 193

    Electrocatalytic CO2 reduction reaction over group 15 bismuth and antimony film electrodes: What makes difference?

    Hye Ji Jang; Ju Young Maeng; Young Jun Kim; Ilsun Yoon; Chang Woo Myung; Choong Kyun Rhee; Youngku Sohn

    J. CO2 Util. 2022, 64, 102202. DOI ↗

  • 192

    Electrochemical Performance of Layer-Structured Ni0.8Co0.1Mn0.1O2 Cathode Active Materials Synthesized by Carbonate Co-Precipitation

    Byung Hyun Park; Taeseong Kim; Hyerim Park; Youngku Sohn; Jongmin Shin; Misook Kang

    Nanomaterials 2022, 12, 3610. DOI ↗

  • 191

    Synthesis and photophysical properties of thiophene-modified salicylate derivatives

    Hwan Pyo Jeon; Jiyeon Ha; In Tae Kim; Hae Ji Jang; Youngku Sohn; Jun-Gill Kang

    J. Lumin. 2022, 250, 119096. DOI ↗

  • 190

    Interface Engineered V-Zn Hybrids: Electrocatalytic and Photocatalytic CO2 Reductions

    Seon Young Hwang; Hye Ji Jang; Young Jun Kim; Ju Young Maeng; Go Eun Park; Seo Young Yang; Choong Kyun Rhee; Youngku Sohn

    Nanomaterials 2022, 12, 2758. DOI ↗

  • 189

    Ignition study of facile spray drying prepared microspheres of nickel coated boron nanoparticles using a shock tube

    Haneol Lee; Jong Hun Kim; P.R. Deshmukh; Hyung Soo Hyun; Youngku Sohn; Weon Gyu Shin

    J. Alloys Compd. 2022, 910, 164678. DOI ↗

  • 188

    CO2 reduction by photocatalytic and photoelectrocatalytic approaches over Eu(III)-ZnGa2O4 nanoparticles and Eu(III)-ZnGa2O4/ZnO nanorods

    Hye Ji Jang; Ju Hyun Yang; Ju Young Maeng; Min Hee Joo; Young Jun Kim; Sung-Min Hong; Choong Kyun Rhee; Youngku Sohn

    J. CO2 Util. 2022, 60, 101994. DOI ↗

  • 187

    Effective inactivation of Bacillus atrophaeus spores and Escherichia coli on disposable face masks using ultraviolet laser irradiation

    My-Chi Thi Nguyen; Huu-Quang Nguyen; Hanbyeol Jang; Sojung Noh; Youngku Sohn; Kiju Yee; Heesoo Jung; Jeongkwon Kim

    Journal of Analytical Science and Technology 2022, 13, 23. DOI ↗

  • 186

    Electrochemical Ce3+/Ce4+ and Eu2+/Eu3+ interconversion, complexation, and electrochemical CO2 reduction on thio-terpyridyl-derivatized Au electrodes

    So Jeong Park; Min Hee Joo; Ju Young Maeng; Choong Kyun Rhee; Jun-Gill Kang; Youngku Sohn

    Appl. Surf. Sci. 2022, 576, 151793. DOI ↗

  • 185

    Photoelectrochemical CO2 Reduction Products Over Sandwiched Hybrid Ga2O3:ZnO/Indium/ZnO Nanorods

    Hye Ji Jang; Ju Hyun Yang; Ju Young Maeng; Min Hee Joo; Young Jun Kim; Choong Kyun Rhee; Youngku Sohn

    Frontiers in Chemistry 2022, 10, 814766. DOI ↗

  • 184

    X-ray micro computed tomography and efficient electrochemical recovery of lanthanides on porous carbon cylinder electrodes

    Min Hee Joo; So Jeong Park; Sung-Min Hong; Choong Kyun Rhee; Dongsoo Kim; Gisu Ji; Sung Woo Lee; Youngku Sohn

    Composites Part B: Engineering 2022, 231, 109590. DOI ↗

  • 183

    In-situ evolution of the NiO nanosheets on 3D-Ni-foam as a self-supported electrode for energy storage device applications

    Rajneesh Kumar Mishra; Gyu Jin Choi; Hyeon Jong Choi; Huisu Shin; Youngku Sohn; Seung Hee Lee; Jin Seog Gwag

    Mater. Lett. 2022, 308, 131052. DOI ↗

  • 182

    Electrochemical Ce(III)/Ce(IV) interconversion, electrodeposition, and catalytic CO ↔ CO2 interconversion over terpyridine-modified indium tin oxide electrodes

    So Jeong Park; Ju Young Maeng; Min Hee Joo; Jun-Gill Kang; Choong Kyun Rhee; Youngku Sohn

    J. Ind. Eng. Chem. 2022, 106, 520-536. DOI ↗

  • 181

    Current status, research gaps, and future scope for nanomaterials toward visible light photocatalysis

    So Jeong Park; Ju Hyun Yang; Min Hee Joo; Youngku Sohn

    Nanostructured Materials for Visible Light Photocatalysis 2022, 569-608. DOI ↗

2021

  • 180

    PT-BI Co-Deposit Shell on AU Nanoparticle Core: High Performance and Long Durability for Formic Acid Oxidation

    Catalysts 2021. DOI ↗

  • 179

    Photocatalytic and Electrocatalytic Properties of Cu-Loaded ZIF-67-Derivatized Bean Sprout-Like Co-TiO2/Ti Nanostructures

    Nanomaterials 2021. DOI ↗

  • 178

    Electrochemistry, Electrodeposition, and Photoluminescence of Eu (III)/Lanthanides (III) on Terpyridine-Functionalized Ti Nanospikes

    Metals 2021. DOI ↗

  • 177

    Electrochemical Ce(III)/Ce(IV) Redox Behavior and Ce Oxide Nanostructure Recovery over Thio-Terpyridine-Functionalized Au/Carbon Paper Electrodes

    ACS Applied Materials & Interfaces 2021. DOI ↗

  • 176

    Electrochemical behaviors and electrodeposited materials of lanthanides (La, Ce, Pr, Nd, Sm, Eu, Gd, Tb, Dy, Ho, Er, Tm, and Yb) on terpyridine-functionalized Ti sheets

    Materials Today Communications 2021. DOI ↗

  • 175

    Thermal CO Oxidation and Photocatalytic CO2 Reduction over Bare and M-Al2O3 (M = Co, Ni, Cu, Rh, Pd, Ag, Ir, Pt, and Au) Cotton-Like Nanosheets

    Nanomaterials 2021. DOI ↗

  • 174

    Enhanced Photoluminescence of Electrodeposited Europium Complex on Bare and Terpyridine-Functionalized Porous Si Surfaces

    Photochem 2021. DOI ↗

  • 173

    Electrodeposition and Characterization of Lanthanide Elements on Carbon Sheets

    Coatings 2021. DOI ↗

  • 172

    Electrochemical Eu(iii) behaviours and Eu oxysulfate recovery over terpyridine-functionalized indium tin oxide electrodes

    Inorganic Chemistry Frontiers 2021. DOI ↗

2020

  • 171

    Electrochemical Recovery and Behaviors of Rare Earth (La, Ce, Pr, Nd, Sm, Eu, Gd, Tb, Dy, Ho, Er, Tm, and Yb) Ions on Ni Sheets

    Materials 2020. DOI ↗

  • 170

    Co-deposits of Pt and Bi on Au disk toward formic acid oxidation

    Journal of Solid State Electrochemistry 2020. DOI ↗

  • 169

    Energy Storage and CO2 Reduction Performances of Co/Co2C/C Prepared by an Anaerobic Ethanol Oxidation Reaction Using Sacrificial SnO2

    Catalysts 2020. DOI ↗

  • 168

    Photocatalytic CO2 Reduction and Electrocatalytic H2 Evolution over Pt(0,II,IV)-Loaded Oxidized Ti Sheets

    Nanomaterials 2020. DOI ↗

  • 167

    Pt Deposits on Bi/Pt NP Catalyst for Formic Acid Oxidation: Catalytic Enhancement and Longer Lifetime

    Langmuir 2020. DOI ↗

  • 166

    A novel RGO/N-RGO supercapacitor architecture for a wide voltage window, high energy density and long-life via voltage holding tests

    Chemical Communications 2020. DOI ↗

2019

  • 165

    Photoluminescence imaging of europium (III)‐doped γ‐Al2O3 nanofiber structures

    Luminescence 2019. DOI ↗

  • 164

    Spray drying formation of metal oxide (TiO2 or SnO2) nanoparticle coated boron particles in the form of microspheres and their physicochemical properties

    Journal of Alloys and Compounds 2019. DOI ↗

  • 163

    Reduced graphene oxide based supercapacitors: Study of self-discharge mechanisms, leakage current and stability via voltage holding tests

    Materials Letters 2019. DOI ↗

  • 162

    Electrochemical hydrogen evolution and CO2 reduction over hierarchical MoSxSe2-x hybrid nanostructures

    Applied Surface Science 2019. DOI ↗

  • 161

    Nitrogen-doped reduced graphene oxide as excellent electrode materials for high performance energy storage device applications

    Materials Letters 2019. DOI ↗

  • 160

    Photoelectrochemical Hydrogen Evolution and CO2 Reduction over MoS2/Si and MoSe2/Si Nanostructures by Combined Photoelectrochemical Deposition and Rapid-Thermal Annealing Process

    Catalysts 2019. DOI ↗

  • 159

    ZnO-TiO2 core-shell nanowires decorated with Au nanoparticles for plasmon-enhanced photoelectrochemical water splitting

    Journal of Alloys and Compounds 2019. DOI ↗

  • 158

    Enhanced electrochemical hydrogen evolution over defect-induced hybrid MoO3/Mo3O9·H2O microrods

    Applied Surface Science 2019. DOI ↗

  • 157

    Photoluminescence, electro- and thermal catalytic properties of bare and Eu(III)-doped GaOOH, α- and β-Ga2O3 nanorods

    Journal of Alloys and Compounds 2019. DOI ↗

  • 156

    Magnetic/catalytic properties and strain induced structural phase transformation from β-FeOOH to porous α-Fe2O3 nanorods

    Journal of Alloys and Compounds 2019. DOI ↗

2018

  • 155

    Blue-Light-Emitting Photostable Hybrid Films for High-Efficiency Large-Area Light Converter and Photonic Applications

    ACS Applied Materials & Interfaces 2018. DOI ↗

  • 154

    Antimicrobial activity of ZnO nanoplates and its Ag nanocomposites: Insight into an ROS-mediated antibacterial mechanism under UV light

    Ara Joe; Se-Ho Park; Da-Jung Kim; Yeong-Ju Lee; Kwang-Hwan Jhee; Youngku Sohn; Eue-Soon Jang

    Journal of Solid State Chemistry 2018, 267, 124-133. DOI ↗

  • 153

    Facile synthesis of CuCo2O4 composite octahedrons for high performance supercapacitor application

    Ashok Kumar Das; Nam Hoon Kim; Seung Hee Lee; Youngku Sohn; Joong Hee Lee

    Composites Part B: Engineering 2018, 150, 269-276. DOI ↗

  • 152

    Charge carrier generation and control on plasmonic Au clusters functionalized TiO2 thin films for enhanced visible light water splitting activity

    Ceramics International 2018. DOI ↗

  • 151

    Facile synthesis of porous CuCo2O4 composite sheets and their supercapacitive performance

    Composites Part B: Engineering 2018. DOI ↗

  • 150

    Preparation of ultrathin TiO2 coating on boron particles by thermal chemical vapor deposition and their oxidation-resistance performance

    Journal of Alloys and Compounds 2018. DOI ↗

  • 149

    Stalagmite Al(OH)3 growth on aluminum foil surface by catalytic CO2 reduction with H2O

    Applied Surface Science 2018. DOI ↗