Using Nonionic Surfactants for Production of Semiconductor-Type Carbon Nanotubes by Gel-Based Affinity Chromatography

Varun Shenoy Gangoli,Sean A Gelwick,Junichiro Kono,Juyan Azhang,Taryn T Willett,Michael S Wong,Robert H Hauge,Erik H Haroz

doi:10.5772/58828

Varun Shenoy Gangoli, Sean A Gelwick + Show 6 more

Open Access

https://doi.org/10.5772/58828

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Abstract

Single-wall carbon nanotubes (SWCNTs) have remarkable properties based on their electronic properties, i.e., metallic or semiconducting types, but as-grown SWCNTs contain a mixture of both types. Presented here is an improved and detailed method for producing highly enriched semiconducting SWCNTs from a colloidal suspension of as-grown SWCNTs through agarose gel column-based affinity chromatography. After a 2 wt% sodium dodecyl sulphate (SDS) aqueous dispersion of SWCNTs is passed through the gel column, metal-type SWCNTs preferentially elute out using a 1.5 wt% SDS solution. Semiconductor-type SWCNTs are subsequently recovered from the column using a 2 wt% Pluronic F77 surfactant solution eluent. The semiconductor-enriched fraction purity is in the 90–95% range, based on detailed UV-vis-NIR absorption and resonant Raman spectroscopy characterization of the particulate suspension. Semiconductor-type SWCNTs are recovered in solid form by evaporating the suspension fluid, and heating the dried sample in air to a temperature just above the Pluronic decomposition temperature. Using Pluronic and other nonionic-type surfactants can aid the scalability of the chromatographic production of semiconducting SWCNT samples.

Highlights

Single-wall carbon nanotubes (SWCNTs) have remarkable properties such as high electrical conductivityVarun Shenoy Gangoli, Juyan Azhang, Taryn T
Agarose gel column-based affinity chromatography is a scalable technique towards high efficiency separation of metallic and semiconducting single-wall carbon nanotubes
The separation mechanism is based on the affinity differences of metallic and semiconducting SWCNTs towards the agarose gel surface

Summary

Introduction

Single-wall carbon nanotubes (SWCNTs) have remarkable properties such as high electrical conductivityVarun Shenoy Gangoli, Juyan Azhang, Taryn T. Single-wall carbon nanotubes (SWCNTs) have remarkable properties such as high electrical conductivity. /W58o8n2g8: 1 Using Nonionic Surfactants for Production of Semiconductor-type Carbon Nanotubes by Gel-based Affinity Chromatography and chemical reactivity based on whether they are metallic or semiconducting. SWCNTs are normally synthesized containing metallic and semiconducting types, and are handled as a powder comprised of huge aggregates of individual nanotubes. Methods to produce individual, unaggregated nanotubes of mostly one type exist, but the quantities produced are small. These methods are based on various separation schemes [8,9,10,11,12]

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