한빛사논문
- 조회767
Hyunsu Jeon‡, Yong Min Kim‡, Sangwoo Han, Hong Chul Moon* & Jong Bum Lee*
Department of Chemical Engineering, University of Seoul, Seoul 02504, Republic of Korea
‡These authors contributed equally to this work.
*Corresponding authors
Abstract
Herein, we propose innovative deoxyribonucleic acid (DNA)-based gels and their applications in diverse optoelectronics. We prepared the optoelectronic DNA-based gels (OpDNA Gel) through molecular complexation, that is, groove binding and ionic interactions of DNA and 1,1′-diheptyl-4,4′-bipyridinium (DHV). This process is feasible even with sequence-nonspecific DNA extracted from nature (e.g., salmon testes), resulting in the expansion of the application scope of DNA-based gels. OpDNA Gel possessed good mechanical characteristics (e.g., high compressibility, thermoplasticity, and outstanding viscoelastic properties) that have not been observed in typical DNA hydrogels. Moreover, the electrochromic (EC) characteristics of DHV were not lost when combined with OpDNA Gel. By taking advantage of the facile moldability, voltage-tunable EC behavior, and biocompatibility/biodegradability of OpDNA Gel, we successfully demonstrated its applicability in a variety of functional electrochemical systems, including on-demand information coding systems, user-customized EC displays, and microorganism monitoring systems. The OpDNA Gel is a promising platform for the application of DNA-based biomaterials in electrochemical optoelectronics.
KEYWORDS: DNA, self-assembly, hydrogel, thermoplastic, electrochromism
논문정보
- Research article
- 2022년 01월 (BRIC 등록일 2022-02-18)
- 국내 연구진
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