Computational Lab for Innovative Materials

혁신소재전산연구실

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혁신소재전산연구실

Understanding electron transport in bulk materials and across their interface is very important to industrial applications such as energy conversion and electronic devices. Phenomena occurring in the microscopic world are hardly predicted by our intuition due to probabilistic description by quantum mechanics. Our main research interest is to predict various properties of materials by using the state-of-the-art simulation tools and to develop advanced software tools for overcoming limitations of existing codes.

관심분야

2D materials, magnetic ordering, strongly correlated system, non-equilibrium electron transport, water splitting, perovskite solar cell

희망분야

2D materials, magnetic ordering, strongly correlated system, non-equilibrium electron transport, water splitting, perovskite solar cell

Research Keywords and Topics

2D materials, magnetic ordering, strongly correlated system, non-equilibrium electron transport, water splitting, perovskite solar cell

Research Publications
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[1] Nature Communications, "Multiferroicity in atomic van der Waals heterostructures", Cheng Gong, Eun Mi Kim, Yuan Wang, Geunsik Lee, Xiang Zhang, (2019).
[2] ACS Energy Lett., “Rashba-Dresselhaus Effect in Inorganic/Organic Lead Iodide Perovskite Interfaces”, Chang Woo Myung, Saqib Javaid, Kwang S. Kim, Geunsik Lee, (2018).
[3] Phys. Rev. Lett., “Orbital Selective Fermi Surface Shifts and Mechanism of High Tc Superconductivity in Correlated AFeAs (A=Li, Na)”, Geunsik Lee, Hyo Seok Ji, Yeongkwan Kim, Changyoung Kim, Kristjan Haule, Gabriel Kotliar, Bumsung Lee, Seunghyun Khim, Kee Hoon Kim, Kwang S. Kim, Ki-Seok Kim, Ji Hoon Shim, (2012).

국가과학기술표준분류

  • NB. 물리학
  • NB06. 응집물질물리
  • NB0602. 응집물질 계산과학

국가기술지도분류

  • 정보-지식-지능화 사회 구현
  • 010400. 반도체/나노 신소자 기술

녹색기술분류

  • 에너지원기술
  • 수소/연료전지
  • 244. 차세대 고효율연료 전지시스템기술

6T분류

  • NT 분야
  • 나노소재
  • 030211. 나노소재기술 (나노분말소재, 광학용 나노소재, 고기능 시너지 소재, 촉매/환경/기능소재에 중점)