Fabrication and design of high-density carbon nanostructured papers with superior conductive properties

Harnmad Younes; Rashid Abu Al-Rub; Md Mahfuzur Rahman; Ahmed Dalaq; Amal Al Ghaferi

Fabrication and design of high-density carbon nanostructured papers with superior conductive properties

Harnmad Younes, Rashid Abu Al-Rub, Md Mahfuzur Rahman, Ahmed Dalaq, Amal Al Ghaferi

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

A simple and scalable method are used for the fabrication of high-density Carbon Nanostructured (CNS)-based papers using intrinsically aligned CNS material. As fabricated CNS papers has higher density that has not been reported before, which obtained by applying different pressure load on the BP papers. The SEM study shows a very high degree of alignment due to the intrinsic alignment of CNS, which remained unaltered even after the sonication and the pressing process. With the increase in density, CNS-papers show an improved in the electrical behavior. The electrical conductivity of the papers improves by 113% with increasing the density.

Original language	English
Title of host publication	NSTI
Subtitle of host publication	Advanced Materials - TechConnect Briefs 2015
Editors	Bart Romanowicz, Matthew Laudon
Publisher	Taylor and Francis Inc.
Pages	408-411
Number of pages	4
ISBN (Electronic)	9781498747271
State	Published - 2015
Externally published	Yes

Publication series

Name	NSTI: Advanced Materials - TechConnect Briefs 2015
Volume	1

Keywords

Alignment
Carbon nanostructure
Densification
Electrical conductivity

ASJC Scopus subject areas

Surfaces, Coatings and Films
Fluid Flow and Transfer Processes
Biotechnology
Fuel Technology

Cite this

Younes, H., Al-Rub, R. A., Rahman, M. M., Dalaq, A., & Al Ghaferi, A. (2015). Fabrication and design of high-density carbon nanostructured papers with superior conductive properties. In B. Romanowicz, & M. Laudon (Eds.), NSTI: Advanced Materials - TechConnect Briefs 2015 (pp. 408-411). (NSTI: Advanced Materials - TechConnect Briefs 2015; Vol. 1). Taylor and Francis Inc..

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title = "Fabrication and design of high-density carbon nanostructured papers with superior conductive properties",

abstract = "A simple and scalable method are used for the fabrication of high-density Carbon Nanostructured (CNS)-based papers using intrinsically aligned CNS material. As fabricated CNS papers has higher density that has not been reported before, which obtained by applying different pressure load on the BP papers. The SEM study shows a very high degree of alignment due to the intrinsic alignment of CNS, which remained unaltered even after the sonication and the pressing process. With the increase in density, CNS-papers show an improved in the electrical behavior. The electrical conductivity of the papers improves by 113\% with increasing the density.",

keywords = "Alignment, Carbon nanostructure, Densification, Electrical conductivity",

author = "Harnmad Younes and Al-Rub, \{Rashid Abu\} and Rahman, \{Md Mahfuzur\} and Ahmed Dalaq and \{Al Ghaferi\}, Amal",

year = "2015",

language = "English",

series = "NSTI: Advanced Materials - TechConnect Briefs 2015",

publisher = "Taylor and Francis Inc.",

pages = "408--411",

editor = "Bart Romanowicz and Matthew Laudon",

booktitle = "NSTI",

address = "United States",

}

Fabrication and design of high-density carbon nanostructured papers with superior conductive properties. / Younes, Harnmad; Al-Rub, Rashid Abu; Rahman, Md Mahfuzur et al.
NSTI: Advanced Materials - TechConnect Briefs 2015. ed. / Bart Romanowicz; Matthew Laudon. Taylor and Francis Inc., 2015. p. 408-411 (NSTI: Advanced Materials - TechConnect Briefs 2015; Vol. 1).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

TY - GEN

T1 - Fabrication and design of high-density carbon nanostructured papers with superior conductive properties

AU - Younes, Harnmad

AU - Al-Rub, Rashid Abu

AU - Rahman, Md Mahfuzur

AU - Dalaq, Ahmed

AU - Al Ghaferi, Amal

PY - 2015

Y1 - 2015

N2 - A simple and scalable method are used for the fabrication of high-density Carbon Nanostructured (CNS)-based papers using intrinsically aligned CNS material. As fabricated CNS papers has higher density that has not been reported before, which obtained by applying different pressure load on the BP papers. The SEM study shows a very high degree of alignment due to the intrinsic alignment of CNS, which remained unaltered even after the sonication and the pressing process. With the increase in density, CNS-papers show an improved in the electrical behavior. The electrical conductivity of the papers improves by 113% with increasing the density.

AB - A simple and scalable method are used for the fabrication of high-density Carbon Nanostructured (CNS)-based papers using intrinsically aligned CNS material. As fabricated CNS papers has higher density that has not been reported before, which obtained by applying different pressure load on the BP papers. The SEM study shows a very high degree of alignment due to the intrinsic alignment of CNS, which remained unaltered even after the sonication and the pressing process. With the increase in density, CNS-papers show an improved in the electrical behavior. The electrical conductivity of the papers improves by 113% with increasing the density.

KW - Alignment

KW - Carbon nanostructure

KW - Densification

KW - Electrical conductivity

UR - https://www.scopus.com/pages/publications/84983243142

M3 - Conference contribution

AN - SCOPUS:84983243142

T3 - NSTI: Advanced Materials - TechConnect Briefs 2015

SP - 408

EP - 411

BT - NSTI

A2 - Romanowicz, Bart

A2 - Laudon, Matthew

PB - Taylor and Francis Inc.

ER -

Fabrication and design of high-density carbon nanostructured papers with superior conductive properties

Abstract

Publication series

Keywords

ASJC Scopus subject areas

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