14701
홍병희Professor
  • E-MAILbyunghee@snu.ac.kr
  • ADDRESS503-201

  • OFFICE+82-2-882-6569FAX+82-2-889-1568LAB+82-2-880-6570

Current Research Interests
The long-term vision is to develop super-functional 2-dimensional nanomaterials with enhanced physical/chemical & electrical/mechanical properties to overcome the current limits of materials in terms of mechanical strength/flexibility, chemical stability/reactivity, electronic/thermal conductivity, etc.

Research Area:
1. Nanomaterials Synthesis
- Chemical vapor deposition (CVD) of CNTs and graphene.
- Large-area synthesis of 2D Nanomaterials.
- Self-assembled organic nanomaterials
- Nanowires & metal-organic core-shell nanostructures

2.Nanofabrication and characterization
- Electron-beam lithography techniques for molecular electronics
- Photolithography
- Low-temperature measurement of electron-transport properties
- Low-temperature measurement of magnetic properties

3.Nano-analysis
- High-Resolution Analytical Electron Microscopy
- Scanning Electron Microscopy
- Scanning Probe Microscopy (AFM, SKPM etc.).


Education
Ph. D., Chemistry, POSTECH (2002). Experimental Physical Chemistry, Nanochemistry
M. S., Chemistry, POSTECH (2000). Theoretical and Computational Chemistry
B. S., Chemistry, POSTECH (1998).


Research Experiences
Associate Professor, Department of Chemistry, Seoul National Univ. (2011.9~)
Assistant Professor, Department of Chemistry, Sungkyunkwan University (2007.9~2011.9)
Post-Doc., Department of Physics, Columbia University (2004.3~2007.8). Advisor: Philip Kim
Post-Doc.,Department of Chemistry, POSTECH (2002.9-2004.2).


Representative Publications
1. S. Bae et al. "Roll-to-roll production of 30 inch graphene films for transparent electrodes" Nature Nanotech. 5, 574 (2010) (Cover Article)
2. J. Y. Lee et al. "Near-field focusing and magnification through self-assembled nanoscale spherical lenses" Nature 460, 498 (2009).
3. K. S. Kim et al. "Large-Scale Pattern Growth of Graphene Films for Stretchable Transparent Electrodes." Nature 457, 706 (2009).
4. X. Guo et al. "Covalently Bridging Gaps in Single-Walled Carbon Nanotubes with Conducting Molecules." Science 311, 356 (2006).
5. B. H. Hong et al. "Ultrathin Single-crystalline Silver Nnowire Arrays Formed in an Ambient Solution Phase." Science 294, 348 (2001) (Cover Article)

MORE Laboratory

list