Issue 15, 2024
From the journal:

Nanoscale Advances

Facile covalent functionalization of boron nitride nanotubes via coupling reaction

Thang Quoc Huynh, ORCID logo ab   Minsung Kang, ORCID logo a   Jeung Gon Kim ORCID logo *bc  and  Seokhoon Ahn ORCID logo *ac  

* Corresponding authors

a Institute of Advanced Composite Materials, Korea Institute of Science and Technology (KIST), Chudong-ro 92, Bongdong-eup, Wanju-gun 55324, Jeonbuk, Korea
E-mail: ahn75@kist.re.kr

b Department of Chemistry and Research Institute of Physics and Chemistry, Jeonbuk National University, Jeonbuk 54896, Republic of Korea
E-mail: jeunggonkim@jbnu.ac.kr

c Department of JBNU-KIST Industry-Academia Convergence Research, Jeonbuk National University, Jeonbuk 54896, Republic of Korea

Abstract

A broad range of functionalized boron nitride nanotubes has been synthesized using a facile method based on the coupling reaction between BNNT and arenediazonium tetrafluoroborate derivatives. The formation of covalent bonds between nanotubes and organic moieties results in homogeneous dispersions in organic solvents, such as N,N′-dimethylformamide, acetone, isopropanol, and tetrahydrofuran. Digital images demonstrated improved and stabilized dispersions lasting for several days, while TEM analysis indicated no breakdown of nanotubes due to the mild reaction conditions employed. The functionalization process was further confirmed through additional characterization, employing FTIR, XPS, and TGA. Surface-functionalized materials exhibited a significant weight percentage of functionality, reaching up to 21.8% according to TGA.

Graphical abstract: Facile covalent functionalization of boron nitride nanotubes via coupling reaction

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Article information

DOI
https://doi.org/10.1039/D4NA00458B
Article type
Paper
Submitted
03 Jun 2024
Accepted
11 Jun 2024
First published
11 Jun 2024
This article is Open Access
Creative Commons BY-NC license

Nanoscale Adv., 2024,6, 3904-3910

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Facile covalent functionalization of boron nitride nanotubes via coupling reaction

T. Q. Huynh, M. Kang, J. G. Kim and S. Ahn, Nanoscale Adv., 2024, 6, 3904 DOI: 10.1039/D4NA00458B

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