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Dual-Hydrogen Bond Donor-Functionalized Carbon Nanotube Fibers: Enhancing Anion-Sensing Performance Through Functionalization Approaches

Authors
Choi, Seung-HoLee, Joon-SeokLee, SungjuJeong, Hyeon SuChoi, Seon-Jin
Issue Date
Feb-2025
Publisher
Wiley - V C H Verlag GmbbH & Co.
Keywords
anion; carbon nanotube fiber; chemiresistive sensor; deprotonation; Dual-hydrogen bond donor
Citation
Small, v.21, no.6, pp 1 - 14
Pages
14
Indexed
SCIE
SCOPUS
Journal Title
Small
Volume
21
Number
6
Start Page
1
End Page
14
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/209597
DOI
10.1002/smll.202405070
ISSN
1613-6810
1613-6829
Abstract
In this study, chemiresistive anion sensors are developed using carbon nanotube fibers (CNTFs) functionalized with squaramide-based dual-hydrogen bond donors (SQ1 and SQ2) and systematically compared the sensing properties attained by two different functionalization methods. Model structures of the selectors are synthesized based on a squaramide motif incorporating an electron-withdrawing group. Anion-binding studies of SQ1 and SQ2 are conducted using UV–vis titrations to elucidate the anion-binding properties of the selectors. These studies revealed that the chemical interaction with acetate (AcO−) induced the deprotonation of both SQ1 and SQ2. Selectors are functionalized onto the CNTFs using either covalent or non-covalent functionalization. For covalent functionalization, SQ1 is chemically formed on the surface of the CNTFs, whereas SQ2 is non-covalently functionalized to the surface of the CNTFs assisted by poly(4-vinylpyridine). The results showed that non-covalently functionalized CNTFs exhibited a 3.6-fold higher sensor response toward 33.33 mm AcO− than covalently functionalized CNTFs. The selector library is expanded using diverse selectors, such as TU- and CA-based selectors, which are non-covalently functionalized on CNTFs and presented selective AcO−-sensing properties. To demonstrate on-site and real-time anion detection, anion sensors are integrated into a sensor module that transferred the sensor resistance to a smartphone via wireless communication.
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Choi, Seon-Jin
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