Ultra-Low Noise Measurements of Ionic Transport Within Individual Single-Walled Carbon Nanotubes - Fédération de recherche « Matière et interactions »
Pré-Publication, Document De Travail Année : 2024

Ultra-Low Noise Measurements of Ionic Transport Within Individual Single-Walled Carbon Nanotubes

Résumé

Despite 15 years of extensive investigation, the fabrication and study of nanofluidic devices that incorporate a single carbon nanotube (CNT) still represents a remarkable experimental challenge. In this study, we present the fabrication of nanofluidic devices that integrate an individual single-walled CNT (SWCNT), showcasing a notable reduction in noise by 1 -3 orders of magnitude compared to conventional devices. This achievement was made possible by employing high dielectric constant materials for both the substrate and the CNT-covering layer. Furthermore, we provide a detailed account of the crucial factors contributing to the successful fabrication of SWCNT-based nanofluidic devices that are reliably leak-free, plug-free, and long-lived. Key considerations include the quality of the substrate-layer interface, the nanotube opening, and the effective removal of photoresist residues and trapped microbubbles. We demonstrate that these devices, characterized by a high signal-tonoise ratio, enable spectral noise analysis of ionic transport through an individual SWCNT, thus showing that SWCNTs obey Hooge's law in 1/ f at low frequencies. Beyond advancing our fundamental understanding of ion transport in SWCNTs, these ultralow-noise measurements open avenues for leveraging SWCNTs in nanopore sensing applications for single-molecule detection, offering high sensitivity and identification capabilities.
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Dates et versions

hal-04678527 , version 1 (27-08-2024)
hal-04678527 , version 2 (18-12-2024)

Identifiants

  • HAL Id : hal-04678527 , version 1

Citer

Laure Bsawmaii, Clément Delacou, Valerii Kotok, Sébastien Méance, Koutayba Saada, et al.. Ultra-Low Noise Measurements of Ionic Transport Within Individual Single-Walled Carbon Nanotubes. 2024. ⟨hal-04678527v1⟩

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