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Song, Hyun-Kon (송현곤)

Department
School of Energy and Chemical Engineering(에너지화학공학과)
Website
https://echem.kr/
Lab
eclat: electrochemistry lab of advanced technology (eclat)
Research Keywords
Electrochemical analysis, electroactive materials, Advanced Electroactive materials, Novel Energy devices, rechargeable battery
Research Interests
Trilogy of Research Domains at eclat
As eclat stands for "electrochemistry lab of advanced technologies", we have two research axes: Electrochemistry as an abscissa and Materials Chemistry as an ordinate.
Three research domains do we have.[Phase 1] Synthesis of Advanced Electroactive materials for the state-of-the-art energy conversion and storage devices[Phase 2] Novel Energy devices based on new electroactive pairs and new electrochemical principles for next generation[Ground 0] in situ Electrochemical analysis to provide electrochemically meaningful information on electrochemical systems.
This table browses all dspace content
Issue DateTitleAuthor(s)TypeViewAltmetrics
2023-11Guaiacol as an Organic Superoxide Dismutase Mimics for Anti-ageing a Ru-based Li-rich Layered Oxide CathodeLee, Jeongin; Kim, Min-Ho; Lee, Hosik, et alARTICLE10 Guaiacol as an Organic Superoxide Dismutase Mimics for Anti-ageing a Ru-based Li-rich Layered Oxide Cathode
2023-08Influence of the Lithium-Ion Concentration in Electrolytes on the Performance of Dye-Sensitized Photorechargeable BatteriesHan, Hyun-Gyu; Yoon, So Yeon; Kim, Byung-Man, et alARTICLE411 Influence of the Lithium-Ion Concentration in Electrolytes on the Performance of Dye-Sensitized Photorechargeable Batteries
2023-07Full-Hexacyanometallate Aqueous Redox Flow Batteries Exceeding 1.5 V in an Aqueous SolutionJang, Ji-Eun; Kim, Ryeong-ah; Jayasubramaniyan, S., et alARTICLE527 Full-Hexacyanometallate Aqueous Redox Flow Batteries Exceeding 1.5 V in an Aqueous Solution
2023-07Low-Voltage Hydrogen Production via Hydrogen Peroxide Oxidation Facilitated by Oxo Ligand Axially Coordinated to Cobalt in Phthalocyanine MoietyLee, Jisu; Lee, Boreum; Lee, Yeongdae, et alARTICLE121 Low-Voltage Hydrogen Production via Hydrogen Peroxide Oxidation Facilitated by Oxo Ligand Axially Coordinated to Cobalt in Phthalocyanine Moiety
2023-03Selectively Enhanced Electrocatalytic Oxygen Evolution within Nanoscopic Channels Fitting a Specific Reaction Intermediate for Seawater SplittingShin, Seokmin; Wi, Tae-Ung; Kong, Tae-Hoon, et alARTICLE642 Selectively Enhanced Electrocatalytic Oxygen Evolution within Nanoscopic Channels Fitting a Specific Reaction Intermediate for Seawater Splitting
2023-03Copper with an atomic-scale spacing for efficient electrocatalytic co-reduction of carbon dioxide and nitrate to ureaShin, Seokmin; Sultan, Siraj; Chen, Zong-Xian, et alARTICLE225 Copper with an atomic-scale spacing for efficient electrocatalytic co-reduction of carbon dioxide and nitrate to urea
2022-11Very strong interaction between FeN4 and titanium carbide for durable 4-electron oxygen reduction reaction suppressing catalyst deactivation by peroxideLee, Yeongdae; Ahn, Jang Hyuk; Jang, Haeseong, et alARTICLE271 Very strong interaction between FeN4 and titanium carbide for durable 4-electron oxygen reduction reaction suppressing catalyst deactivation by peroxide
2022-10In situ gel electrolyte network guaranteeing ionic communication between solid electrolyte and cathodeShin, Hyeju; Choi, Seong Jin; Choi, Sinho, et alARTICLE155 In situ gel electrolyte network guaranteeing ionic communication between solid electrolyte and cathode
2022-09Amphi-Active Superoxide-Solvating Charge Redox Mediator for Highly Stable Lithium-Oxygen BatteriesKwak, Sang Kyu; Hwang, Chihyun; Song, Hyun-Kon, et alARTICLE269 Amphi-Active Superoxide-Solvating Charge Redox Mediator for Highly Stable Lithium-Oxygen Batteries
2022-06Molecularly Engineered Carbon Platform To Anchor Edge-Hosted Single-Atomic M-N/C (M = Fe, Co, Ni, Cu) Electrocatalysts of Outstanding DurabilityNoh, Woo Yeong; Mun, Jinhong; Lee, Yeongdae, et alARTICLE471 Molecularly Engineered Carbon Platform To Anchor Edge-Hosted Single-Atomic M-N/C (M = Fe, Co, Ni, Cu) Electrocatalysts of Outstanding Durability
2022-04Metal-nitrogen intimacy of the nitrogen-doped ruthenium oxide for facilitating electrochemical hydrogen productionLee, Yeongdae; Ahn, Jang Hyuk; Shin, Seokmin, et alARTICLE597 Metal-nitrogen intimacy of the nitrogen-doped ruthenium oxide for facilitating electrochemical hydrogen production
2022-02Breathable Artificial Interphase for Dendrite-Free and Chemo-Resistive Lithium Metal AnodeSong, Gyujin; Hwang, Chihyun; Song, Woo-Jin, et alARTICLE407 Breathable Artificial Interphase for Dendrite-Free and Chemo-Resistive Lithium Metal Anode
2022-02Malonic-acid-functionalized fullerene enables the interfacial stabilization of Ni-rich cathodes in lithium-ion batteriesPark, Chanhyun; Lee, Eunryeol; Kim, Su Hwan, et alARTICLE463 Malonic-acid-functionalized fullerene enables the interfacial stabilization of Ni-rich cathodes in lithium-ion batteries
2022-02Shifting Target Reaction from Oxygen Reduction to Superoxide Disproportionation by Tuning Isomeric Configuration of Quinone Derivative as Redox Mediator for Lithium-Oxygen BatteriesKim, Jonghak; Lee, Jeongin; Jeong, Jinhyeon, et alARTICLE162 Shifting Target Reaction from Oxygen Reduction to Superoxide Disproportionation by Tuning Isomeric Configuration of Quinone Derivative as Redox Mediator for Lithium-Oxygen Batteries
2022-01Critical Void Dimension of Carbon Frameworks to Accommodate Insoluble Products of Lithium–Oxygen BatteriesHwang, Chihyun; Kwak, Myung-Jun; Jeong, Jinhyeon, et alARTICLE441 Critical Void Dimension of Carbon Frameworks to Accommodate Insoluble Products of Lithium–Oxygen Batteries
2022-01Argentophilic pyridinic nitrogen for embedding lithiophilic silver nanoparticles in a three-dimensional carbon scaffold for reversible lithium plating/strippingJeon, Yuju; Kim, Jonghak; Jang, Haeseong, et alARTICLE181 Argentophilic pyridinic nitrogen for embedding lithiophilic silver nanoparticles in a three-dimensional carbon scaffold for reversible lithium plating/stripping
2021-10Breaking the Linear Scaling Relationship by a Proton Donor for Improving Electrocatalytic Oxygen Reduction KineticsLee, Dong-Gyu; Kim, Su Hwan; Lee, Hyun Ho, et alARTICLE355 Breaking the Linear Scaling Relationship by a Proton Donor for Improving Electrocatalytic Oxygen Reduction Kinetics
2021-09In situ visualization of zinc plating in gel polymer electrolyteJeon, Yuju; Wu, Yutong; Zhang, Yamin, et alARTICLE371 In situ visualization of zinc plating in gel polymer electrolyte
2021-09Stress-Relief Network in Silicon Microparticles and Composite Anodes for Durable High-Energy-Density BatteriesSong, Gyujin; Kwak, Myung-Jun; Hwang, Chihyun, et alARTICLE399 Stress-Relief Network in Silicon Microparticles and Composite Anodes for Durable High-Energy-Density Batteries
2021-08Double activation of oxygen intermediates of oxygen reduction reaction by dual inorganic/organic hybrid electrocatalystsLee, Dong-Gyu; Kim, Su Hwan; Lee, Jiyun, et alARTICLE478 Double activation of oxygen intermediates of oxygen reduction reaction by dual inorganic/organic hybrid electrocatalysts

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