최용석 사진

최용석 | 과학기술대학 신소재공학과

  • 직급:
    조교수

학력

  • [2014] 학사 고려대학교 / 신소재공학과
  • [2020] 박사 고려대학교 / 신소재공학과

주요경력

  • University College London (2020-03-25)

주요연구분야

이차전지, 범밀도함수(DFT) 기반 원자/전자구조 시뮬레이션

연구업적

  • 일반논문[20250115] Unveiling the potential of lithium fluoride phosphate (Li2MPO4F, M = Fe, V, Mn) for the next generation of lithium-ion batteries: A comparative study based on first principles and molecular dynamic simulations
  • 일반논문[20240702] Li-ion transport mechanisms in Ge/Cl dual-doped Li10GeP2S12 solid electrolytes: Synergistic insights from experimental structural characterization and machine-learning-assisted atomistic modeling
  • 일반논문[20240701] Ether vs. Carbonate solvents in Na–CuS Batteries: Impact on anode Morphology, SEI Formation, and desolvation dynamics
  • 일반논문[20240601] Electrolyte solvents as architects: How solvents guide the spontaneous formation of 3D porous nanostructures in Alloy- and Conversion-type battery anodes
  • 일반논문[20240523] Exploring dopant-enhanced ionic conductivity of AgCl-doped Li7P3S11 solid electrolytes: Integrating synchrotron Rietveld analysis, DFT, and ANN-based molecular dynamics approaches
  • 일반논문[20230801] Achieving high capacity retention for SnS2 anodes via the solvent-driven reversible conversion-alloying reactions
  • 일반논문[20230101] Intrinsic Defects and Their Role in the Phase Transition of Na-Ion Anode Na2Ti3O7
  • 일반논문[20220501] Enhanced oxygen redox reversibility and capacity retention of titanium-substituted Na-4/7[1/7Ti1/7Mn5/7]O-2 in sodium-ion batteries
  • 일반논문[20220501] Enabling 100C Fast-Charging Bulk Bi Anodes for Na-Ion Batteries
  • 일반논문[20211201] Na2.4Al0.4Mn2.6O7 anionic redox cathode material for sodium-ion batteries - a combined experimental and theoretical approach to elucidate its charge storage mechanism
  • 일반논문[20211001] Self-Assembly of Pulverized Nanoparticles: An Approach to Realize Large-Capacity, Long-Lasting, and Ultra-Fast-Chargeable Na-Ion Batteries
  • 일반논문[20210726] 2021 roadmap for sodium-ion batteries
  • 일반논문[20210101] Surface Engineering Strategy Using Urea To Improve the Rate Performance of Na2Ti3O7 in Na-Ion Batteries
  • 일반논문[20201201] Extending the Performance Limit of Anodes: Insights from Diffusion Kinetics of Alloying Anodes
  • 일반논문[20191201] Continuous/reversible phase transition behaviors and their effect on the hysteresis energy loss of the anodes in Na-ion batteries
  • 일반논문[20191101] Diffusion kinetics governing the diffusivity and diffusion anisotropy of alloying anodes in Na-ion batteries
  • 일반논문[20190901] Characterizing multiple continuous phase transitions at an alloying anode with voltammetric measurements and first-principles calculations
  • 일반논문[20190501] Direct-Contact Microelectrical Measurement of the Electrical Resistivity of a Solid Electrolyte Interface
  • 일반논문[20190301] Electronic and mechanistic origins of the superionic conductivity of sulfide-based solid electrolytes
  • 일반논문[20190201] Anisotropic Swelling Governed by Orientation-Dependent Interfacial Na Diffusion in Single-Crystalline Sb
  • 일반논문[20190101] Direct Measurement of Electric Resistivity of Solid Electrolyte Interface Using 4-Point-Probe Technique
  • 일반논문[20181201] Isotropic Sodiation Behaviors of Ultrafast-Chargeable Tin Crystals
  • 일반논문[20180601] Phase transition behaviors and formation of electrically resistive phases at the anode: major factors determining the energy efficiency of Li-ion batteries
  • 일반논문[20180501] Evaluation of energy loss at Sn anodes based on phase transition behaviors and formation of electrically resistive phases of Na-Sn batteries
  • 일반논문[20180101] Ultrafast Sodiation of Single-Crystalline Sn Anodes
  • 일반논문[20171001] Interfacial Reactions in the Li/Si diffusion couples: Origin of Anisotropic Lithiation of Crystalline Si in Li-Si batteries
  • 일반논문[20170301] Origin of high Coulombic loss during sodiation in Na-Sn battery
  • 일반논문[20170101] Formation of Zintl Ions and Their Configurational Change during Sodiation in Na-Sn Battery
  • 일반논문[20151201] A Simple Method of Analyzing the Phase Transition Behavior of a Na-Sn Battery Using Energy-Dispersive X-Ray Spectroscopy
  • 학술발표[20221207] Insights into the effect of Ti/Zn dual-doping on the P3-type Mn-Ni based cathodes for Na-ion batteries: combined first-principles and experimental study
  • 학술발표[20221207] Intrinsic Defects-Assisted Phase Transition of Na2Ti3O7 and its Application for High Performance Na-Ion Anodes
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