Multifunctional Coatings with Carbon Nanotubes for Electrostatic Charge Mitigation

Author

Dervishi, E. ; Li, Z. ; Saini, V. ; Sharma, R. ; Xu, Y. ; Mazumder, M.K. ; Biris, A.S. ; Trigwell, S. ; Biris, A.R. ; Lupu, D. ; Saini, D.

Author_Institution

Appl. Sci. Dept., Univ. of Arkansas at Little Rock, Little Rock, AR

fYear

2008

fDate

5-9 Oct. 2008

Firstpage

1

Lastpage

4

Abstract

Electrostatic charge dissipation presents a major problem for applications ranging from electronics to space exploration. A novel method to control both the bulk and the surface electrical conductivity of polymeric films is presented. By dispersing small amounts of multiwall carbon nanotubes in the polymeric material, the electrical bulk resistivity decreases by seven orders of magnitude. Also, nanolayers of single and multiwall carbon nanotubes were electrosprayed on the surface of the polymeric films and the surface resistivity was monitored as a function of nanotubes loading. The films with carbon nanotube modified surfaces were found to have the highest charge dissipation rates with decay times of seconds.

Keywords

carbon nanotubes; coatings; electrical conductivity; electrostatic discharge; polymer films; electrical bulk resistivity; electrostatic charge dissipation; electrostatic charge mitigation; multifunctional coatings; multiwall carbon nanotubes; polymeric films; space exploration; surface electrical conductivity; surface resistivity; Carbon nanotubes; Coatings; Conducting materials; Conductive films; Conductivity; Electrostatics; Monitoring; Organic materials; Polymer films; Space exploration;

fLanguage

English

Publisher

ieee

Conference_Titel

Industry Applications Society Annual Meeting, 2008. IAS '08. IEEE

Conference_Location

Edmonton, Alta.

ISSN

0197-2618

Print_ISBN

978-1-4244-2278-4

Electronic_ISBN

0197-2618

Type

conf

DOI

10.1109/08IAS.2008.115

Filename

4658903