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1. Á¦ ¸ñ : Tip-based Nanoscale Architecture 2. ¿¬ »ç : Á¦¿øÈ£ ±³¼ö (¼¿ï´ëÇб³ ¹°¸®Ãµ¹®ÇкÎ) 3. ÀÏ ½Ã : 2013³â 6¿ù 10ÀÏ (¿ù) ¿ÀÈÄ 17:00 ~ 18:00 4. Àå ¼Ò : ¼¿ï´ëÇб³ ½Å°øÇаü(301µ¿) 117È£ ¼¼¹Ì³ª½Ç 5. ³» ¿ë : Žħ ±â¹Ý ³ª³ë±¸Á¶ ±¸Ãà ±â¼ú¿¡ °üÇÑ ¿¬±¸
Abstract : Multiscale architecture with nanomaterial convergence is focused on the scientific research as well as nanotechnology industry with functionalizing materials and technical analysis of various components, such as small bio-sensors, cell tracking, and analysis of the nano-bio materials or photovoltaic cells. Two kinds of technologies are generally used for manufacturing with photo-generated electron, probe-based lithography, nano-imprinting approach (Top-down) and atomic layer deposition, Sol Gel, self-assembly, physical/chemical vapor deposition (Bottom-up), which exhibits the products’ characteristics of randomness, non-selectivity, and isotropicity. In this work, we demonstrate a mixture of the two methods with advanced precision tip-based nanofabri-cation (top-down) and potential applications of nanoscale architecture techniques based on a variety of structure and function (Bottom-up). Moreover, the desired position, size, and shape of the diverse and complex molecular architecture ranging from local to large areas are performed with precise implementation of atomic force microscope measuring the physical/chemical properties of a variety of substances.
6. ¾à ·Â : Professor, Seoul National University (‘92~) Fellow, American Physical Society (2012) PI of Creative Research Center (’97~’05) PI of Leap Research Center (‘07~’12) Korea National Academy of Science Award (2006) One of 60 Best Research of the Ministry of Education, Science and Technology Recent three-year publications: ACS Nano, Nanoscale, etc (20 papers) (h-index = 26, citations > 4500)
¹® ÀÇ : ¸ÖƼ½ºÄÉÀÏ ¿¡³ÊÁö ½Ã½ºÅÛ ¿¬±¸´Ü ¿¬±¸Áö¿øº»ºÎ (¢Î 889-6669,6670) ³²±âÅ ±³¼ö (Àç·á°øÇкÎ), ÃÖ¸¸¼ö ±³¼ö (±â°èÇ×°ø°øÇкÎ) |