한빛사논문, 상위피인용논문
- 조회6,638
Abstract
Dr. Sung Min Kang1, Inseong You1, Dr. Woo Kyung Cho3, Hyun Kyong Shon4, Dr. Tae Geol Lee4, Prof. Dr. Insung S. Choi2, Prof. Dr. Jeffery M. Karp3, Prof. Dr. Haeshin Lee1
1Department of Chemistry and, Graduate School of Nanoscience & Technology (WCU), KAIST, Daejeon, 305-701 (Korea), Fax: (+82)-42-350-2810 http://web.mac.com/haeshin
2Department of Chemistry, KAIST, Daejeon, 305-701 (Korea)
3Department of Medicine, Brigham and Women’s Hospital, Harvard Medical School, Harvard-MIT Division of Health Sciences and Technology, Cambridge, Massachusetts 02139 (USA)
4Center for Nano-Bio Technology, Korea Research Institute of Standards and Science, Daejeon, 305-600 (Korea)
†This study was supported by the National Research Foundation of S. Korea: WCU Program R31-2008-000-10071-0 (H.L.), Molecular-level Interface Research Center (2010-0001954, H.L.; 0001953, I.S.C.), the Pioneer Research Program (2010-0002170), National Cancer Control from the Ministry of Health and Welfare (920340, H.L.), NSF NIRT grant 0609182 (J.M.K.), and NIH grant GM086433 (J.M.K.). We thank Prof. Choongsik Bae at KAIST for high-speed camera analysis.
Science MIMIC-king nature: Hydrophilic conversion of superhydrophobic surfaces can be easily achieved through a bioinspired approach to produce an alternating superhydrophobic?hydrophilic surface by using established soft-lithographic techniques, such as micromolding in capillaries (MIMIC). The resulting patterned surface showed high water adhesion properties as well as superhydrophobic properties.
Keywords:dopamines;hydrophobic effect;materials science;lithography;surface chemistry
논문정보
- Research article
- 2010년 10월 (BRIC 등록일 )
- 국내(교신)+국외 연구진
- 바이오·의료융합 > 바이오센싱 및 나노바이오물질
- 60회 이상 인용된 논문 (상위피인용논문 등록일 2013-10-31)
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