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  1. Kor /
  2. Eng

Major AchievementsFollowings are the major outstanding achievements of the SAIHST faculties

[방창현 교수/ 우수논문] Nature. 2017 Jun
No 1
Date 2017/07/10

 

책임저자

 


방창현 교수

(SAIHST 의료기기산업학과)

 

 

Impact Factor ('16) = 40.137

 

 

Nature. 2017 Jun 14;546(7658):396-400. doi: 10.1038/nature22382.

https://www.ncbi.nlm.nih.gov/pubmed/28617467

A wet-tolerant adhesive patch inspired by protuberances in suction cups of octopi.

Sangyul Baik,Da Wan Kim,Youngjin Park,Tae-Jin Lee,Suk Ho Bhang & Changhyun Pang.

 

Abstract:

 

Adhesion strategies that rely on mechanical interlocking or molecular attractions between surfaces can suffer when coming into contact with liquids. Thus far, artificial wet and dry adhesives have included hierarchical mushroom-shaped or porous structures that allow suction or capillarity, supramolecular structures comprising nanoparticles, and chemistry-based attractants that use various protein polyelectrolytes. However, it is challenging to develop adhesives that are simple to make and also perform well-and repeatedly-under both wet and dry conditions, while avoiding non-chemical contamination on the adhered surfaces. Here we present an artificial, biologically inspired, reversible wet/dry adhesion system that is based on the dome-like protuberances found in the suction cups of octopi. To mimic the architecture of these protuberances, we use a simple, solution-based, air-trap technique that involves fabricating a patterned structure as a polymeric master, and using it to produce a reversed architecture, without any sophisticated chemical syntheses or surface modifications. The micrometre-scale domes in our artificial adhesive enhance the suction stress. This octopus-inspired system exhibits strong, reversible, highly repeatable adhesion to silicon wafers, glass, and rough skin surfaces under various conditions (dry, moist, under water and under oil). To demonstrate a potential application, we also used our adhesive to transport a large silicon wafer in air and under water without any resulting surface contamination.

출처: PUBMED

 

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