Category: Faculty & Research

Categories
English Faculty Faculty & Research Physics

Kim, Soyeun

Faculty & Research


Physics

Kim, SoyeunASSISTANT PROFESSOR

  • Websitescholar.google 링크이동
  • E-mailquantum.soyeun@gmail.com
  • Phone+82.10.6290.2642
  • OfficeE2-*
  • LabBE2-*
professor_profile

RESEARCH AREA

  • Strongly correlated quantum materials
  • Emergent phenomena and collective excitations
  • Ultrafast and equilibrium optical spectroscopy
  • XFEL-based x-ray scattering

ACADEMIC & CAREER EXPERIENCE

ACADEMIC Ph. D., Seoul Natl. Univ.
CAREER Postdoctoral Researcher, University of Illinois at Urbana-Champaign
Postdoctoral Researcher, SLAC Natl. Accelerator Laboratory

Our Researches

The intertwining of different degrees of freedom, such as charge, lattice, spin, and orbital, leads to intriguing phenomena and functionalities in strongly correlated quantum materials. To unravel the underlying physical mechanisms behind these complex phenomena, we investigate the electronic and lattice band structures of solids. We utilize optical spectroscopy and x-ray scattering techniques with various light sources, ranging from continuous wave to femtosecond laser and free-electron laser facilities. Our primary goal is to verify collective excitations originating from emergent phases and actively manipulate the physical properties of these materials.

Representative Publications

2023 “Observation of a massive phason in a charge-density-wave insulator”
Soyeun Kim, Yinchuan Lv, Xiao-Qi Sun, Chengxi Zhao, Nina Bielinski, Azel Murzabekova, Kejian Qu, Ryan A. Duncan, Quynh L. D. Nguyen, Mariano Trigo, Daniel P. Shoemaker, Barry Bradlyn, Fahad Mahmood
Nat. Mater. 22, 429-433
2022 “Orbital-selective Mott and Peierls transition in HxVO2”
Soyeun Kim, Steffen Backes, Hyojin Yoon, Woojin Kim, Changhee Sohn, Junwoo Son, Silke Biermann, Tae Won Noh, Se Young Park
npj Quantum Mater. 7, 95
2018 “Charge-spin correlation in van der waals antiferromagnet NiPS3”
So Yeun Kim, Tae Yun Kim, Luke J. Sandilands, Soobin Sinn, Min-Cheol Lee, Jaeseok Son, Sungmin Lee, Ki-Young Choi, Wondong Kim, Byeong-Gyu Park, C. Jeon, Hyeong-Do Kim, Cheol-Hwan Park, Je-Geun Park, S. J. Moon, T. W. Noh
Phys. Rev. Letters 120, 136402
2018 “Spectroscopic studies on metal-insulator transition mechanism in correlated materials”
So Yeun Kim, Min‐Cheol Lee, Garam Han, Marie Kratochvilova, Seokhwan Yun, Soon Jae Moon, Changhee Sohn, Je‐Geun Park, Changyoung Kim, Tae Won Noh
Advanced Materials 30, 170477
Back to list

Categories
Chemistry English Faculty Faculty & Research

Kim , Jong Goo

Faculty & Research


Chemistry

Kim, Jong GooASSISTANT PROFESSOR

  • Websitermsd.dgist.ac.kr 링크이동
  • E-mailjgkim@dgist.ac.kr
  • Phone+82.53.785.6536
  • OfficeE2-608
  • LabBE2-621
professor_profile

RESEARCH AREA

  • Reaction mechanism
  • Protein structural dynamics
  • Solution-phase reaction dynamics
  • Time-resolved x-ray scattering

ACADEMIC & CAREER EXPERIENCE

ACADEMIC Ph. D., KAIST, Korea
Postdoctoral researcher at KAIST
CAREER Research Fellow at Institute for Basic Science (IBS)

Our Researches

The most intuitive approach to unveiling reaction mechanisms is real-time tracking of the three-dimensional structure of molecules involved in a chemical reaction. We utilize time-resolved x-ray scattering to visualize the structural changes of molecules, capturing a dynamic “molecular movie”, which allows us to identify precise reaction pathways and mechanisms. This method is not limited to small molecules but can also be applied to macromolecules such as proteins, enabling real-time tracking of structural changes in proteins during biologically-relevant reactions. Our ultimate goal is to provide fundamental information on the mechanism of various chemical reactions, which can be valuable for optimizing catalytic efficiency and controlling reaction products. Furthermore, by elucidating the correlation between protein structure and function, we can also gain insights into various biological phenomena and diseases caused by abnormal protein interactions.

Representative Publications

2020 “Mapping the emergence of molecular vibrations mediating bond formation”
J. G. Kim, S. Nozawa, H. Kim, E. H. Choi, T. Sato, T. W. Kim, K. H. Kim, H. Ki, J. Kim, M. Choi, Y. Lee, J. Heo, K. Y. Oang, K. Ichiyanagi, R. Fukaya, J. H. Lee, J. Park, I. Eom, S. H. Chun, S. Kim, M. Kim, T. Katayama, T. Togashi, S. Owada, M. Yabashi, S. J. Lee, S. Lee, C. W. Ahn, D.-S. Ahn, J. Moon, S. Choi, J. Kim, T. Joo, J. Kim, S. Adachi, H. Ihee*
Nature 2020, 582, 520
2015 “Direct observation of bond formation in solution with femtosecond X-ray scattering”
K. H. Kim#, J. G. Kim#, S. Nozawa#, T. Sato#, K. Y. Oang, T. W. Kim, H. Ki, J. Jo, S. Park, C. Song, T. Sato, K. Ogawa, T. Togashi, K. Tono, M. Yabashi, T. Ishikawa, J. Kim, R. Ryoo, J. Kim, H. Ihee*, S.-i. Adachi*
Nature 2015, 518, 385
2022 “Determining the charge distribution and the direction of bond cleavage with femtosecond anisotropic x-ray liquidography”
J. Heo#, J. G. Kim#, E. H. Choi, H. Ki, D.-S. Ahn, J. Kim, S. Lee, H. Ihee*
Nature Communications 2022, 13, 522
2021 “Ultrafast coherent motion and helix rearrangement of homodimeric hemoglobin visualized with femtosecond X-ray solution”
Y. Lee#, J. G. Kim#, S. J. Lee, S. Muniyappan, T. W. Kim, H. Ki, H. Kim, J. Jo, S. R. Yun, H. Lee, K. W. Lee, S. O. Kim, M. Cammarata, H. Ihee*
Nature Communications 2021, 12, 3677
2021 “Femtosecond X-ray liquidography visualizes wavepacket trajectories in multidimensional nuclear coordinates for a bimolecular reaction”
J. G. Kim, E. H. Choi, Y. Lee, H. Ihee*
Accounts of Chemical Research, 2021, 54, 1685
2015 “Protein structural dynamics revealed by time-resolved X-ray solution scattering”
J. G. Kim#, T. W. Kim#, J. Kim, H. Ihee*
Accounts of Chemical Research, 2015, 48(8), 2200
Back to list

Categories
Chemistry English Faculty Faculty & Research

Seo, Sangwon

Faculty & Research


Chemistry

Seo,SangwonASSISTANT PROFESSOR

  • WebsiteSSEO GROUP 링크이동
  • E-mailsangwon.seo@dgist.ac.kr
  • Phone+82.53.785.6535
  • OfficeE2-610
  • LabBE2-617
professor_profile

RESEARCH AREA

  • Organic Synthesis
  • Molecular Design
  • Base Metal Catalysis
  • Biocatalysis

ACADEMIC & CAREER EXPERIENCE

ACADEMIC Ph. D., University of Manchester, U. K.
CAREER Postdoctoral Research Associate, University of Oxford
Young Scientist Fellow, Institute for Basic Science

Our Researches

The fundamental principle of our research is to invent new reaction modes and unique catalytic systems for sustainable organic synthesis. We aim to achieve this in as an original way as possible, not only by harnessing our expertise in organic chemistry but also by interdisciplinary approaches involving organometallic, biological, and computational chemistry as additional tools. The main focus is placed on the development of cost-effective and atom-economical organic reactions that would address the environmental issues we currently face in chemical industries.

Representative Publications

2022 “Endo-Selective Intramolecular Alkyne Hydroamidation Enabled by NiH Catalysis Incorporating Alkenylnickel Isomerization”
Hoonchyl Choi, Xiang Lyu, Dongwook Kim, Sangwon Seo*, Sukbok Chang*
J. Am. Chem. Soc. 2022, 144, 10064
2022 “Photoinduced α-C–H Amination of Cyclic Amine Scaffolds Enabled by Polar-Radical Relay”
Wongyu Lee, Dongwook Kim, Sangwon Seo*, Sukbok Chang*
Angew Chem. Int. Ed. 2022, 61, e202202971
2021 “Merging NiH Catalysis and Inner-Sphere Metal-Nitrenoid Transfer for Hydroamidation of Alkynes”
Xiang Lyu, Jianbo Zhang, Dongwook Kim, Sangwon Seo*, Sukbok Chang*
J. Am. Chem. Soc. 2021, 143, 5867
2021 “Controlled Relay Process to Access N-Centered Radicals for Catalyst-Free Amidation of Aldehydes under Visible Light”
Wongyu Lee, Hyun Ji Jeon, Hoimin Jung, Dongwook Kim, Sangwon Seo*, Sukbok Chang*
Chem 2021, 7, 495
2020 “Ring-Opening Functionalizations of Unstrained Cyclic Amines Enabled by Difluorocarbene Transfer”
Youyoung Kim, Joon Heo, Dongwook Kim, Sukbok Chang*, Sangwon Seo*
Nat. Commun. 2020, 11, 4761.
Back to list

Categories
English Faculty Faculty & Research Physics

Kuk, Young

Faculty & Research


Physics

Kuk, YoungPRESIDENTDISTINGUISHED PROFESSOR

  • Website
  • E-mailykuk@dgist.ac.kr
  • Phone+82.53.785.1007
  • OfficeE1-101
  • LabE1-101
professor_profile
Back to list

Categories
English Faculty Faculty & Research Physics

Kang, Joongoo

Faculty & Research


Physics

Kang, Joongoo PROFESSOR

  • WebsiteKang Research Group 링크이동
  • E-mailjoongoo.kang@dgist.ac.kr
  • Phone+82.53.785.6517
  • OfficeE2-308
  • LabE2-416
professor_profile

RESEARCH AREA

  • Computational Materials Science & Materials Design
  • Nanomaterials for Energy Applications
  • Theoretical Condensed Matter Physics

ACADEMIC & CAREER EXPERIENCE

ACADEMIC Ph. D., KAIST, Korea
CAREER Postdoctoral Research Fellow, National Renewable Energy Laboratory (NREL), U.S.A., 2008-2010
Scientist III, National Renewable Energy Laboratory (NREL), U.S.A., 2010-2014
Scientist IV, National Renewable Energy Laboratory (NREL), U.S.A., 2014

Our Researches

Calculation is increasingly replacing experimentation in design of useful functional materials. We use quantum mechanics and atomistic simulations for understanding and control of matter, energy, and information at the microscopic scales of materials physics. When combined with machine learning, first-principles materials theory potentially leads to new opportunities for creativity in materials science. As Frank Wilczek once said, “Our creative mastery over matter, through quantum theory, is still embryonic. The best is yet to come.”
  1. Materials by design

    Condensed matter theory of real materials; Materials design for energy and information applications
    – Will Density Functional Theory remain as the “Standard Model” of materials theory?

  2. Chemical Science

    New physics and chemistry through machine learning (ML); Materials physics of complex systems using ML-based interatomic potentials
    – Can a machine “see” the Hilbert space as we see objects in the three-dimensional space?

  3. Simple complexity

    Structures and dynamics of liquids and glasses; “Phase” transitions in intermediate systems, such as nanoclusters and small proteins
    – How does our complex universe arise out of simple physical laws?

Representative Publications

2019 “Synthetic Strategies for (-)-Cannbidiol and Its Structural Analogs”
Jung, B.*; Lee, J. K.; Kim, J.; Kang, E. K.; Han, S. Y.; Lee, H.-Y.; Choi, I. S.*
Chem. Asian J. 2019, 14, 3749-3762.
2018 “Cu(I)-Catalyzed Enantioselective Alkyl 1,4-Additions to (E)-Nitroalkenes and Cyclic Enones with Phosphino-Oxazoline Ligands”
Shin, M.; Gu, M.; Lim, S. S.; Kim, M.-J.; Lee, J.-H.; Jin, H.-G.; Jang, Y. H.; Jung, B.* Eur. J. Org.
Chem. 2018, 3122-3130.
2018 “Direct Synthesis of Anthracenes from o-Tolualdehydes and Aryl Iodides through Pd(II)-Catalyzed sp3 C-H Arylation and Electrophilic Aromatic Cyclization”
Park, H.; Yoo, K.; Jung, B.*; Kim, M.*
Tetrahedron 2018, 74, 2048-2055.
Back to list

Categories
English Faculty Faculty & Research Physics

Kim, Aaram

Faculty & Research


Physics

Kim, Aaram J.ASSISTANT PROFESSOR

  • Websiteajkdgist 링크이동
  • E-mailaaram@dgist.ac.kr
  • Phone+82.53.785.6534
  • OfficeE2-613
  • LabE2-615
professor_profile

RESEARCH AREA

  • Strongly Correlated Systems
  • Quantum Many-Body Algorithm

ACADEMIC & CAREER EXPERIENCE

ACADEMIC Ph. D., Seoul National University, Korea
CAREER Postdoctoral researcher at University of Frankfurt am Main
Postdoctoral researcher at King’s College London
Postdoctoral researcher at University of Fribourg

Our Researches

Based on the symbiotic relation between developing quantum many-body algorithms and extending knowledge on emergent physics, we aim to provide the numerically exact results on the long-standing problems of strongly correlated systems, including the unconventional superconductors, frustrated spin systems, and light-matter-coupled systems. We have expertise in the quantum Monte Carlo methods, the dynamical mean-field theory, and the Feynman diagrammatic theory.

Representative Publications

2022 “Vertex-Based Diagrammatic Treatment of Light-Matter-Coupled Systems”
Aaram J. Kim, Katharina Lenk, Jiajun Li, Philipp Werner, Martin Eckstein
arXiv:2112.15549 (Phys. Rev. Lett. Accepted 2022)
2021 “Homotopic Action: A Pathway to Convergent Diagrammatic Theories”
Aaram J. Kim, Nikolay V. Prokof’ev, Boris V. Svistunov, Evgeny Kozik
Phys. Rev. Lett. 126, 257001 (2021)
2021 “Entropy in the non-Fermi-liquid regime of the doped 2d Hubbard model”
Connor Lenihan, Aaram J. Kim, Fedor Simkovic IV, Evgeny Kozik
Phys. Rev. Lett. 126, 105701 (2021)
2020 “Spin and charge correlations across the metal-to-insulator crossover in the half-filled 2d Hubbard model”
Aaram J. Kim, Fedor Simkovic IV, Evgeny Kozik
Phys. Rev. Lett. 124, 117602 (2020)
2017 “J-freezing and Hund’s rules in spin-orbit-coupled multiorbital Hubbard models”
Aaram J. Kim, Harald O. Jeschke, Philipp Werner, Roser Valenti
Phys. Rev. Lett. 118, 086401 (2017)
Back to list

Categories
English Faculty Faculty & Research Physics

Hong, Jung-il

Faculty & Research


Physics

Hong, Jung-IlPROFESSOR

  • Websitespin-nanotech 링크이동
  • E-mailjihong@dgist.ac.kr
  • Phone+82.53.785.6511
  • OfficeE2-311
  • LabE2-316
professor_profile

RESEARCH AREA

  • Electric and magnetic nanomaterial
  • Spintronics
  • Thin films of metal, semiconductor, and oxide material

ACADEMIC & CAREER EXPERIENCE

ACADEMIC Northwestern University, USA
Ph. D. in Materials Science & Engineering
CAREER USA
Worked at Georgia Institute of Technology, University of California-San Diego, Rensselaer Polytechnic Institute

Our Researches

We are an experimental research group focusing on the development of functional novel materials with exotic properties based on spin and electron interactions. We explore broad range of material systems to understand the behaviors of spins and electrons in various metals, semiconductors, and oxides.

The topics of our interest include:
Exchange couplings between magnetic materials of different magnetic phases: ferromagnet (FM), ferrimagnet, and antiferromagnet (AFM),
Formation and manipulation of topological spin structures, Electron and spin dynamics, Magnetism in the nanostructure and at the interface,
Coupling of Magnetic, Electrical, and Mechanical properties, Hard and soft magnetic properties of low dimensional nanostructures of particles,
nanowires, and nanoplates, And any mysterious and/or unexplainable measurement results.

Representative Publications

2021 “Programmable dynamics of exchange-biased domain wall via spin-current-induced antiferromagnet switching”
H. J. Kim, S. G. Je, K. Y. Moon, W. C. Choi, S. Yang, C. Kim, B. X. Tran, C. Hwang, J. I. Hong
Advanced Science 8, 2100908 (2021)
2021 “Free tuning of exchange bias via resettable alignment of antiferromagnetic Neel axes using mechanical vibrations”
H. J. Kim, S. Yoon, J. H. Ha, W. C. Choi, J. I. Hong
Acta Materialia 210, 116821 (2021)
2020 “Direct demonstration of topological stability of magnetic skyrmions via topology manipulation”
S. Je, H. S. Han, S. K. Kim, S. A. Montoya, W. L. Chao, I. S. Hong, E. E. Fullerton, K. S. Lee, K. J. Lee, M. Y. Im, J. I. Hong
ACS Nano 14, 3251 (2020)
2019 “Field-free control of exchange bias by spin Hall currents”
H. J. Kim, S. G. Je, D. H. Jung, K. S. Lee, J. I. Hong
Applied Physics Letters 115, 021101 (2019)
2019 “Controllable magnetic anisotropy of ferromagnet/antiferromagnet bilayers coupled with piezoelectric strain”
H. J. Kim, M. S. Jung, C. Y. You, J. I. Hong
Acta Materialia 171, 170-175 (2019).
2019 “Dynamics of the Bloch point in an asymmetric permalloy disk”
M. Y. Im, H. S. Han, M. S. Jung, Y. S. Yu. S. S. Lee, S. S. Yoon, W. Chao, P. Fisher, J. I. Hong, K. S. Lee
Nature Communications 10, 593 (2019)
Back to list

Categories
English Faculty Faculty & Research Physics

Cho, Chang-Hee

Faculty & Research


Physics

Cho, Chang-HeePROFESSOR

  • Websitedgistfsnlab 링크이동
  • E-mailchcho@dgist.ac.kr
  • Phone+82.53.785.6514
  • OfficeE2-310
  • LabE2-320
professor_profile

RESEARCH AREA

  • Semiconductor Photonics
  • Photonic Quantum Information Devices
  • Light-Matter Interactions

ACADEMIC & CAREER EXPERIENCE

DGIST Dept. of Physics and Chemistry, Daegu, South Korea
Professor (Sep. 2012 ~ Present)
POSTECH Dept. of Physics, Pohang, South Korea
Visiting Professor (Aug. 2020 ~ Jul. 2021)
University of Pennsylvania Philadelphia, PA, USA
Postdoctoral Researcher, Dept. of Materials Science and Engineering (Sep. 2009 ~ Aug. 2012)
Gwangju Institute of Science and Technology Gwangju, Korea
Ph. D. Materials Science and Engineering (Aug. 2009)
M. S. Materials Science and Engineering (Feb. 2004)
Kyung Hee University Seoul, Korea
B. S. Physics (Feb. 2002)

Our Researches

Research fields in Future Semiconductor Nanophotonics Laboratory include ‘Future Semiconducting Materials’, ‘Next-generation Photonic Information Devices’, and ‘Light-Matter Interactions’. We explore new science and technologies in emerging semiconducting materials by tailoring the light-matter interactions. To this end, we pursue our studies to understand optical physics in such nanophotonic materials and to design future information devices.

Representative Publications

2019 “Room temperature polariton lasing in quantum heterostructure nanocavities”
J. W. Kang, B. Song, W. Liu, S. J. Park, R. Agarwal, and C. H. Cho
Science Advances 5, eaau9338 (2019).
2018 “Radial multi-quantum well ZnO nanorod arrays for nanoscale ultraviolet light-emitting diodes”
J. W. Kang, B. H. Kim, H. Song, Y. R. Jo, S. H. Hong, G. Y. Jung, B. J. Kim, S. J. Park, and C. H. Cho
Nanoscale 10, 14812-14818 (2018).
2016 “Periodically Diameter-Modulated Semiconductor Nanowires for Enhanced Optical Absorption”
M. Ko, S. H. Baek, B. Song, J. W. Kang, S. A. Kim, and C. H. Cho
Advanced Materials 28, 2504-2510 (2016)
2013 “Silicon coupled with plasmon nanocavities generates bright visible hot luminescence”
C. H. Cho, C. O. Aspetti, J. Park, and R. Agarwal
Nature Photonics 7, 285-289 (2013)
2012 “All-optical active switching in individual semiconductor nanowires”
B. Piccione, C. H. Cho, L. K. van Vugt, and R. Agarwal
Nature Nanotechnology 7, 640-645 (2012)
2011 “Tailoring hot-exciton emission and lifetimes in semiconducting nanowires via whispering-gallery nanocavity plasmons”
C. H. Cho, C. O. Aspetti, M. E. Turk, J. M. Kikkawa, S. W. Nam, and R. Agarwal
Nature Materials 10, 669-675 (2011)
Back to list

Categories
English Faculty Faculty & Research Physics

Lee, JaeDong

Faculty & Research


Physics

Lee, JaeDongPROFESSOR

professor_profile

RESEARCH AREA

  • Theoretical Condensed Matter Physics
  • Ultrafast Dynamics and Optics
  • Nonequilibrium Phenomena

ACADEMIC & CAREER EXPERIENCE

ACADEMIC Ph. D., POSTECH, Korea
CAREER Associate Professor at JAIST
NIMS-ICYS Fellow
Researcher at CALTECH
Researcher at Tokyo University
Researcher at MPI-FKF

Our Researches

Materials theory is a way to understand properties of emergent materials using theoretical approach. We use computational methods performed on model calculation and first-principle density functional theory to study new physics of the materials.
Main frameworks of our study
  • Semiconducting, magnetic, relativistic and superconducting properties of emergent materials.
  • Ultrafast time-resolved study of photophysical processes.
  • Advanced functional nano applications and their physical principles.

Representative Publications

2022 “Gate-tunable quantum pathways of high harmonic generation in graphene”
S. Cha#, M. Kim#, Y. Kim#, S. Choi, S. Kang, H. Kim, S. Yoon, G. Moon, T. Kim, Y.W. Lee, G.Y. Cho, M.J. Park, C.-J. Kim, B.J. Kim, J.D. Lee*, M.-H. Cho*, and J. Kim*
Nature Communications, 13, 6630 (2022)
2020 “Dual resonant sum frequency generation from two-dimensional materials”
Y. Kim, H. Kim*, H. Jang, J.-H. Ahn, and J.D. Lee*
Nano Letters, 20, 4530 (2020)
2019 “Anomalous electron dynamics induced through the valley magnetic domain: A pathway to the valleytronic current processing”
Y. Kim and J.D. Lee*
Nano Letters, 19, 4166 (2019)
2016 “Rectifying the optical-field-induced current in dielectrics: Petahertz diode”
J.D. Lee*, W.S. Yun, and N. Park
Physical Review Letters, 116, 057401 (2016).
2013 “Model for the attosecond resonant photoemission of copper dihalide: Evidence for high-order Fano resonance and a time-domain core-hole clock”
J.D. Lee
Physical Review Letters, 110, 247201 (2013)
Back to list

Categories
English Faculty Faculty & Research Physics

Lee, Shinbuhm

Faculty & Research


Physics

Lee, ShinbuhmASSOCIATE PROFESSOR

  • WebsiteXlab 링크이동
  • E-maillee.shinbuhm@dgist.ac.kr
  • Phone+82.53.785.6524
  • OfficeE2-511
  • LabE2-517
professor_profile

RESEARCH AREA

  • Semiconductor
  • Energy
  • Sensor

ACADEMIC & CAREER EXPERIENCE

ACADEMIC Ph. D., Seoul National University, Korea
CAREER Postdoctoral researcher at University of Cambridge (UK)
Postdoctoral researcher at Oak Ridge National Laboratory (US)

Our Researches

  • Semiconductor
  • Energy
  • Sensor

Representative Publications

2019 “Coherent-strained superconducting BaPb1-xBixO3 thin films by interface engineering.”
Jinkwon Kim, Junsik Mun, Bongju Kim, Han Gyeol Lee, Daesu Lee, Tae Heon Kim, SHINBUHM LEE, Miyoung Kim, Seo Hyoung Chang*, and Tae Won Noh*
Physical Review Materials 3, 113606 (2019)
2019 “Degradation mechanism of vanadium oxides films when grown on Y-stabilized ZrO2 above 500oC.”
Songhee Choi, Junhyeob Oh, Ji-Hyun Lee, Jae Hyuck Jang, and SHINBUHM LEE*
Advanced Engineering Materials 21, 1900918 (2019)
2019 “Sharp contrast in the electrical and optical properties of vanadium Wadsley (VmO2m+1, m > 1) epitaxial films selectively stabilized on (111)-oriented Y-stabilized ZrO2.”
Songhee Choi, Jaeseok Son, Junhyeob Oh, Ji-Hyun Lee, Jae Hyuck Jang, and SHINBUHM LEE*
Physical Review Materials 3, 063401 (2019)
2019 “Unraveling the origin and mechanism of nano-filament formation in polycrystalline SrTiO3 resistive switching memories.”
Deok-Hwang Kwon, SHINBUHM LEE, Chan Soon Kang, Yong Seok Choi, Sung Jin Kang, Hae Lim Cho, Woonbae Sohn, Janghyun Jo, Seung-Yong Lee, Kyu Hwan Oh, Tae Won Noh, Roger. A. De Souza, Manfred Martin*, and Miyoung Kim*
Advanced Materials 31, 1901322 (2019)
2018 “Electrochemically triggered metal–insulator transition between VO2 and V2O5.”
Qiyang Lu, Sean R. Bishop, Dongkyu Lee, SHINBUHM LEE, Hendrik Bluhm, Harry L. Tuller, Ho Nyung Lee, and Bilge Yildiz*
Advanced Functional Materials 28, 1803024 (2018)
2018 “Electrical and optical properties of VO2 polymorphic films grown epitaxially on Y-stabilized ZrO2.”
Songhee Choi, Sung-Jin Chang, Junhyeob Oh, Jae Hyuck Jang, and SHINBUHM LEE*
Advanced Electronic Materials 4, 1700620 (2018)
Back to list