PROJECTS
Work |01
Project |01 Discovery of ultralow operating voltage memristor materials using high-throughput calculations
Collaborating with kookmin university
Finding out new composition molecular-motion ionic crystal by using high-throughput screening calculations.
Selecting new composition material group for memristor by using high-throughput screening calculation
Work |02
Project |02 Development and Characterization of SOFC Component Materials
Collaborating with Korea Advanced Institute of Science and Technology
The unit cell configuration of equilibrium physical factors and chemical properties and optimizing the stack components through an electrochemical analysis of water in the drive condition
Work |03
Project |03 Design and synthesis of novel Pb-free light-absorbers
Collaborating with SungKyunKwan University and InHa University
Designing and tuning the crystal structure of the energy bands using first-principles calculation
Non- perovskite structure of the series Pb-free synthetic photoactive material
New photoactive material development from photoelectric conversion efficiency and degradation characteristic
Work |04
Project |04 The variation of electronic properties of VO2 thin film under various growth conditions
Collaborating with Oak Ridge National Laboratory
Understanding electronic strucutrue of various VO2 phases
Finding physical origin of metal-insulator transtion (MIT) in VO2 phases
Elucidating the change in electronic and optical properties of VO2 under different strain conditions
Work |05
Project |05 The effect of defects on reaction kinetics at the surface of highly correlated cuprates
Collaborating with Oak Ridge National Laboratory
Identifying electronic structure of highly coorelated cuprates
Characterizing thermodynamic stability of various defects on the electronic properties of cuprates
Investigating reaction kinetics of cuprates at various surface terminations
Work |06
Project |06 Exchange interaction of paramagentic noises in superconducting qubit
Collaborating with Lawrence Livermore National Laboratory
Understanding the mechanism of exchange interaction of paramagnetic noise in superconducting qubit
Investigating atomistic origin of magnetic noise at superconductor/substrate interfaces
Developing methods to reduce magnetic noise sources in superconducting qubit
Work |07
Project |07 Developing new photocatalyst for efficient CO2 to fuel conversion
Collaborating with University of North Carolina, Chapel Hill
Identifying the mechanism of CO2 to fuel conversion at various catalyst surfaces
Clarifying the role of different co-catalysts for CO2 conversion at different catalystic sites
Design new catalysts that can efficiently convert CO2 into different hydrocarbonic fuel species
Work |08
Project |08 Understanding physical origin of abnormal optical and magnetic properties of rare-earth doped GaN for optoelectronics or spintronics applications
Collaborating with Lehigh University
Elucidating thermodynamics and kinetics of various defect complexes under differnet treatments in Re:GaN
Identifying efficient energy transfer mechanism for enhanced luminescence in various defect centers
Understanding the physical origin of superparamagnetism in Re:GaN