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Polymer Wrapping State Changes at Defect Sites of Locally Functionalized Single-Walled Carbon Nanotubes

Yoshiaki Niidome, Hiromu Matsumoto, Ryo Hamano, Koichiro Kato, Tsuyohiko Fujigaya, Tomohiro Shiraki

2024The Journal of Physical Chemistry C14 citationsDOI

Abstract

Polymer wrapping techniques of single-walled carbon nanotubes (SWCNTs) are used for not only their solubilization in solvents but also tube structure separation and biosensor fabrication. Locally functionalized SWCNTs (lf-SWCNTs) contain defect sites that show bright defect photoluminescence ( E 11 * PL) and exhibit sensitive and remarkable E 11 * PL energy shifts in response to changes in their surrounding dielectric environment. In this study, we exploited the E 11 * PL responsiveness of lf-SWCNTs to investigate polymer wrapping structures around nanotubes by analyzing four vinyl polymers. The observed E 11 * PL energy shifts clarify the unique microenvironment formation at the defect sites based on the polymer wrapping fashion differences: Namely, the side chains of the used polymers modulate the polymer wrapping tightness that change the amounts of D 2 O molecules accessing to the nanotube surfaces for local polarity variation near the defect sites, which induces the polymer-dependent PL shifts. Moreover, the substituents of the modified aryl groups in lf-SWCNTs contribute to the defect site polarity and hydrophobicity, by which a clear correlation between the substituent structures and the induced PL shifts is found. Therefore, the lf-SWCNT defect sites can produce unique molecular interaction fields showing E 11 * PL wavelength shift responses, which would contribute to development of advanced lf-SWCNT sensors.

Topics & Concepts

Carbon nanotubePolymerMaterials scienceCarbon fibersNanotechnologyComposite materialComposite numberCarbon Nanotubes in CompositesNanotechnology research and applicationsFullerene Chemistry and Applications