Lyotropic Boron Nitride Nanotube Liquid Crystals: Preparation, Characterization, and Wet-Spinning for Fabrication of Composite Fiber

Authors
Lim, Hongjin김영경Kim, Hong-SikLee, Taegeon엠디모니호센정현오Lee, Heon Sang조현진주용호이상석Park, SungjuneRho, Heesuk정현수Kim, Myung Jong안석훈Moon, Se YounKim, Keun SuChoi, Siyoung Q.Kim, Bumjoon J.Jang, Se Gyu
Issue Date
2023-05
Publisher
American Chemical Society
Citation
ACS Applied Materials & Interfaces, v.15, no.20, pp.24681 - 24692
Abstract
Microfiber fabrication via wet-spinning of lyotropic liquid crystals (LCs) with anisotropic nanomaterials has gained increased attention due to the microfibers’ excellent physical/chemical properties originating from the unidirectional alignment of anisotropic nanomaterials along the fiber axis with high packing density. For wet-spinning of the microfibers, however, preparing lyotropic LCs by achieving high colloidal stability of anisotropic nanomaterials, even at high concentrations, has been a critically unmet prerequisite, especially for recently emerging nanomaterials. Here, we propose a cationically charged polymeric stabilizer that can efficiently be adsorbed on the surface of boron nitride nanotubes (BNNTs), which provide steric hindrance in combination with Coulombic repulsion leading to high colloidal stability of BNNTs up to 22 wt %. The BNNT LCs prepared from the dispersions with various stabilizers were systematically compared using optical and rheological analysis to optimize the phase behavior and rheological properties for wet-spinning of the BNNT LCs. Systematic optical and mechanical characterizations of the BNNT microfibers with aligned BNNTs along the fiber axis revealed that properties of the microfibers, such as their tensile strength, packing density, and degree of BNNT alignment, were highly dependent on the quality of BNNT LCs directly related to the types of stabilizers.
Keywords
CARBON NANOTUBES; NONCOVALENT FUNCTIONALIZATION; DISPERSION; NANOPARTICLES; PERCOLATION; RHEOLOGY; liquid crystal; nanotube; colloidal dispersion; microfiber; ceramic
ISSN
1944-8244
URI
https://pubs.kist.re.kr/handle/201004/79931
DOI
10.1021/acsami.3c00189
Appears in Collections:
KIST Article > 2023
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