Supramolecular interaction of singlewall carbon nanotubes with a functional TTF-based mediator probed by field-effect transistor devices

TL;DR

This study investigates the supramolecular charge transfer interactions between singlewall carbon nanotubes and a TTF-based mediator using FET measurements and spectroscopy, revealing potential for signal transduction enhancement.

Contribution

It demonstrates how a TTF-based mediator can facilitate charge transfer with carbon nanotubes, enabling improved signal transduction in FET devices.

Findings

Charge transfer occurs between nanotubes and TTF mediator.

Iodine vapors enhance charge transfer effects.

Mediator-based assemblies can transduce external signals effectively.

Abstract

The supramolecular interaction between individual singlewall carbon nanotubes and a functional organic material based on tetrathiafulvalene (TTF) is investigated by means of electric transport measurements in field effect transistor configuration as well as by NIR absorption spectroscopy. The results clearly point to a charge transfer interaction in which the adsorbed molecule serves as electron acceptor for the nanotubes through its pyrene units. Exposure to iodine vapors enhances this effect. The comparison with pristine carbon nanotube field effect transistor devices demonstrates the possibility to exploit charge transfer interactions taking place in supramolecular assemblies in which a mediator unit is used to transduce and enhance an external signal.