ETRI-Knowledge Sharing Plaform

KOREAN
논문 검색
Type SCI
Year ~ Keyword

Detail

Journal Article Clustering Transition in Thermo‐Responsive Micropillars
Cited 2 time in scopus Share share facebook twitter linkedin kakaostory
Authors
Junsoo Kim, Ji Seong Choi, Suim Lim, Seung Eon Moon, Jong-Pil Im, Jeong Hun Kim, Seong Min Kang
Issue Date
2022-06
Citation
Small Structures, v.3, no.6, pp.1-8
ISSN
2688-4062
Publisher
Wiley
Language
English
Type
Journal Article
DOI
https://dx.doi.org/10.1002/sstr.202200023
Abstract
Clustering of high‐aspect‐ratio micropillars is a common phenomenon in nature, and has been utilized to build complex and large‐scale microarchitectures. To induce the clustering, the micropillars should be prepared to be metastable, so that they cluster under perturbation, such as the drying of water. Consequently, once micropillars cluster, they cannot de‐cluster spontaneously. This article shows that the micropillars of thermo‐responsive hydrogels can cluster and de‐cluster spontaneously and reversibly by changing the temperature. This behavior is called clustering transition. When the temperature is low, the micropillars swell and become soft. When the temperature is high, the micropillars de‐swell and become stiff. This phase transition alters the lowest energy state of the system, resulting in a reversible clustering transition. To demonstrate, high‐aspect‐ratio micropillars of poly(N‐isopropylacrylamide‐co‐acrylamide) hydrogels are fabricated through a soft‐molding technique. The micropillars show the clustering transition, and the behavior is studied using a thermodynamic model. By controlling the temperature, the micropillars grip and release microparticles on‐demand.
KSP Keywords
Phase transition, Thermodynamic model, responsive hydrogels