Field emission properties of as-grown multiwalled carbon nanotube films

TL;DR

This study investigates the field emission properties of multiwalled carbon nanotube buckypapers, demonstrating their stability and suitability as electron emitters through local measurements and analysis of emission behavior.

Contribution

It provides a detailed local analysis of field emission from multiwalled carbon nanotube films, highlighting their stable emission and insensitivity to tip-sample distance variations.

Findings

Linear Fowler-Nordheim behavior indicating good emitter performance

Field enhancement factor unaffected by distance up to 2 micrometers

Stable emission current with less than 5% fluctuation over hours

Abstract

Multiwalled carbon nanotubes have been produced by ethylene catalytic chemical vapor deposition and used to fabricate thick and dense freestanding films ("buckypapers") by membrane filtering. Field emission properties of buckypapers have been locally studied by means of high vacuum atomic force microscopy with a standard metallic cantilever used as anode to collect electrons emitted from the sample. Buckypapers showed an interesting linear dependence in the Fowler-Nordheim plots demonstrating their suitability as emitters. By precisely tuning the tip-sample distance in the submicron region we found out that the field enhancement factor is not affected by distance variations up to 2um. Finally, the study of current stability showed that the field emission current with intensity of about 3,3*10-5A remains remarkably stable (within 5% fluctuations) for several hours.