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조영환 교수

YoungWhan Cho

INFO

  • 소속캠퍼스한국과학기술연구원 스쿨
  • 전공 나노-정보 융합
    (나노재료공학)
  • 연락처02-958-5465
  • 출신전공재료과학
  • 학위박사
  • 최종출신대학University of Cambridge
  • 이메일

연구분야

나노재료, 에너지재료

nanomaterials, energy materials

대표연구실적

-  김지우,김기범,심재혁,조영환,오규환/Microstructural characterization of dehydrogenated products of the LiBH4-YH3 composite/Microscopy and Microanalysis/12.2014 -  L.H. Jepsen, V. Ban, K.T.Moller,이영수,조영환,F. Besenbacher, Y. Filinchuk, J. Skibsted, T.R. Jensen/Synthesis, Crystal Structure, Thermal Decomposition, and 11B MAS NMR Characterization of Mg(BH4)2(NH3BH3)2/JPCC/06.2014 -  L.H. Jepsen, M.B. Ley, 이영수, 조영환, M. Dornheim, J.O. Jensen, Y. Filinchuk, J.E. Jorgensen, F. Besenbacher, T.R. Jensen/Materials Today/04.2014

논문(최근 5년)

-  Effective thermal conductivity of MgH2 compacts containing expanded natural graphite under a hydrogen atmosphere[International journal of hydrogen energy,2014-01-01] -  Thermal properties of Y(BH4)3 synthesized via two different methods[International journal of hydrogen energy,2013-07-01] -  Identifying the nature of interaction between LiBH4 and two-dimensional substrates: DFT study with van der Waals correction[Journal of alloys and compounds,2014-02-01] -  Boron-nitrogen based hydrides and reactive composites for hydrogen storage[Materials Today,2014-04-01] -  Microstructural adjustment of Ni-BaCe0.9Y0.1O3-δ cermet membrane for improved hydrogen permeation[Ceramics international,2014-04-01] -  Synthesis, Crystal Structure, Thermal Decomposition, and 11B MAS NMR Characterization of Mg(BH4)2(NH3BH3)2[The Journal of Physical Chemistry C,2014-06-01] -  Mitigation of degradation in the dehydrogenation behavior of air-exposed MgH2 catalyzed with NbF5[Journal of alloys and compounds,2013-10-01] -  Microstructural Analysis of Dehydrogenation Products of the Ca(BH4)2-MgH2 Composite[MICROSCOPY AND MICROANALYSIS,2013-08-01] -  Complex hydrides for hydrogen storage - new perspectives[Materials Today,2014-04-01] -  Microstructural characterization of dehydrogenated products of the LiBH4-YH3 composite[Microscopy and Microanalysis,2014-12-01] -  Probing molecular dynamics of metal borohydrides on the surface of mesoporous scaffolds by multinuclear high resolution solid state NMR[Journal of alloys and compounds,2015-10-01] -  Trends in Syntheses, Structures, and Properties for Three Series of Ammine Rare-Earth Metal Borohydrides, M(BH4)3¡¤nNH3 (M = Y, Gd, and Dy)[Inorganic chemistry,2015-07-01] -  Discovery of Fluidic LiBH4 on Scaffold Surfaces and Its Application for Fast Co-confinement of LiBH4?Ca(BH4)2 into Mesopores[The Journal of Physical Chemistry C,2015-04-01] -  Dehydrogenation Reaction Pathway of the LiBH4-MgH2 Composite under Various Pressure Conditions[The Journal of Physical Chemistry C,2015-05-01] -  Interface-enhanced Li ion conduction in a LiBH4-SiO2 solid electrolyte[Physical chemistry chemical physics : PCCP,2016-08-01] -  Lithium Ion Disorder and Conduction Mechanism in LiCe(BH4)3Cl[The Journal of Physical Chemistry C,2016-09-01] -  Solid state synthesis, structural characterization and ionic conductivity of bimetallic alkali-metal yttrium borohydrides MY(BH4)4 (M = Li and Na)[Journal of materials chemistry. A, Materials for energy and sustainability,2016-06-01] -  Nanometer-scale phase separation and formation of delta ZrH2 in Cu-Zr binary amorphous alloys[Journal of alloys and compounds,2017-10-01] -  Enhanced Li Ion Conductivity in LiBH4-Al2O3 Mixture via Interface Engineering[The Journal of Physical Chemistry C,2017-11-01] -  Pulsed Electrodeposition of Thin Cobalt Coating Layer on Ferritic Stainless Steel for SOFC Interconnects[대한금속 . 재료학회지 = Korean journal of metals and materials,2017-11-01] -  Low temperature formation of Mg2FeH6 by hydrogenation of ball-milled nano-crystalline powder mixture of Mg and Fe[Materials & design,2017-12-01]

특허(최근 5년)

-  내산화성 페라이트계 스테인리스강, 그 제조 방법 및 이를 사용한 연료 전지 접속자[2014-12-05] -  분리막용 바나듐계 수소투과합금, 그 제조 방법 및 이를 이용한 분리막의 사용 방법[2015-02-09] -  Zr을 포함하는 다공체의 제조방법[2015-07-14] -  열전도도 및 내산화성이 우수한 마그네슘계 수소 저장 재료 제조 방법[2015-08-13] -  Li과 Mg를 포함하고 있는 복합수소저장물질의 수소 방출/저장반응속도 향상 기술[2017-12-04] -  복합수소저장물질의 수소 방출온도 저감 및 방출량 증가 기술[2018-01-31] -  복합수소저장물질의 수소 방출온도 저감 및 방출량 증가 기술[2018-01-31] -  복합수소저장물질의 수소 방출온도 저감 및 방출량 증가 기술[2018-01-31] -  복합수소저장물질의 수소 방출온도 저감 및 방출량 증가 기술[2018-01-31] -  복합수소저장물질의 수소 방출온도 저감 및 방출량 증가 기술[2018-01-31]