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에너지재료 및 응용전기화학 실험실

교수님 이력

김재헌
김재헌 교수님 학력
  • 서울대학교 재료공학부 공학사 (2000)
  • 서울대학교 재료공학부 공학석사 (2002)
  • 서울대학교 재료공학부 공학박사 (2006)
주요경력
  • 미국 아이다호대학교 (University of Idaho), 박사후 연구원 (2007~2008)
  • 미국 국립신재생에너지연구소 (National Renewable Energy Laboratory), 박사후 연구원 (2008~2010)
  • 전자부품연구원, 선임연구원 (2010~2013)
  • 국민대학교, 조교수 (2013~ )

연구분야 소개

  • 전기화학과 이의 적용 분야
    • 리튬이차전지 (Lithium rechargeable battery)
    • 초고용량 커패시터 (Supercapacitor)
    • 리독스흐름전지 (Redox flow battery)
    • 부식 및 방식 (Corrosion and protection)
    • 전기도금 (Electrodeposition)
    • 자원재활용 (Resources recycling)

담당과목

물리화학, 에너지재료및설계, 응용전기화학, 신소재응용실험II

연구원 소개

  • 김경배
  • 학위 : 박사과정
  • 서형은
  • 학위 : 박사과정
  • 박다혜
  • 학위 : 석사과정
  • 황준선
  • 학위 : 석사과정
  • 양해리
  • 학위 : 석사과정
  • 양영모
  • 학위 : 석사과정

주요 연구실적

  • "Electrochemical behavior of manganese oxides on flexible substrates for thin film supercapacitors," Electrochimica Acta, 153, 184-189 (2015).
  • "Surface modification by sulfated zirconia on high-capacity nickel-based cathode materials for Li-ion batteries," Electrochimica Acta, 153, 115-121 (2015).
  • "Carbon coating for Si nanomaterials as high-capacity lithium battery electrodes," Electrochemistry Communications, 46, 144-147 (2014).
  • "Oriented TiO2 nanotubes as a lithium metal storage medium," Journal of Electroanalytical Chemistry, 726, 51-54 (2014).
  • "Metallic anodes for next generation secondary batteries," Chemical Society Reviews, 42, 9011-9034 (2013).
  • "Capacity fading mechanism of LiFePO4-based lithium secondary batteries for stationary energy storage," Journal of Power Sources, 229, 190-197 (2013).
  • "Quartz (SiO2): a new energy storage anode material for Li-ion batteries," Energy & Environmental Science, 5, 6895-6899 (2012).
  • "Ni-NiO core-shell inverse opal electrodes for supercapacitors," Chemical Communications, 47, 5214-5216 (2011).
  • "Microstructure and pseudocapacitive properties of electrodes constructed of oriented NiO-TiO2 nanotube arrays," Nano Letters, 10, 4099-4104 (2010).
  • "Li-alloy based anode materials for Li secondary batteries," Chemical Society Reviews, 39, 3115-3141 (2010).
  • Magnesium silicide-derived porous Sb-Si-C composite for stable lithium storage, Journal of Alloys and Compounds, 782, 525-532 (2019).
  • Three-dimensional monolithic corrugated graphene/Ni foam for highly stable and efficient Li metal electrode," Journal of Power Sources, 413, 467-475 (2019).
  • Facile synthesis and electrochemical properties of carbon-coated ZnO nanotubes for high-rate lithium storage," Ceramics International, 44, 18222-18226 (2018).
  • Bottom-up self-assembly of nano-netting cluster microspheres as high-performance lithium storage materials," Journal of Materials Chemistry A, 6, 13321-13330 (2018).
  • Synthesis and electrochemical reaction mechanism of Zn-TiOx-C nanocomposite anode materials for Li secondary batteries," Journal of the Electrochemical Society, 164, A2683-2688 (2017).
  • Niobium oxide nanoparticle core-amorphous carbon shell structure for fast reversible lithium storage," Electrochimica Acta, 204, 316-322 (2017).
  • Few-layer graphene island seeding for dendrite-free Li metal electrodes," ACS Applied Materials & Interfaces, 8, 26895-26901 (2016).
  • Structural modification of self-organized nanoporous niobium oxide via hydrogen treatment," Chemistry of Materials, 28, 1453-1461 (2016).
  • Mechanochemically reduced SiO2 by Ti incorporation as lithium storage materials," ChemSusChem, 8, 3111-3117 (2015).
  • Electrochemical behavior of manganese oxides on flexible substrates for thin film supercapacitors," Electrochimica Acta, 153, 184-189 (2015).

연구실 소개

위치 공학관 415호
전화 (02)910-5018