Direct Insulation-to-Conduction Transformation of Adhesive Catecholamine for Simultaneous Increases of Electrical Conductivity and Mechanical Strength of CNT Fibers

Overview

Journal Adv Mater

Date 2015 Apr 23

PMID 25899742

Citations 12

Authors

Seongwoo Ryu

Jeffrey B Chou

Kyueui Lee

Dongju Lee

Soon Hyung Hong

Rong Zhao

Haeshin Lee

Sang-Gook Kim

Affiliations

Soon will be listed here.

Abstract

Increase in conductivity and mechanical properties of a carbon nanotube (CNT) fiber inspired by mussel-adhesion chemistry is described. Infiltration of polydopamine into an as-drawn CNT fiber followed by pyrolysis results in a direct insulation-to-conduction transformation of poly(dopamine) into pyrolyzed-poly(dopamine) (py-PDA), retaining the intrinsic adhesive function of catecholamine. The py-PDA enhances both the electrical conductivity and the mechanical strength of the CNT fibers.

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