High conducting sepiolite-graphenelike carbon nanocomposite from sugar residual as carbon source

E. Danguillecourt Alvarez; Y. Mosqueda Laffita; E. Reguera Ruiz; M. Aguilar Frutis; E. Pérez Cappe

doi:10.1179/1743676112Y.0000000036

High conducting sepiolite-graphenelike carbon nanocomposite from sugar residual as carbon source

E. Danguillecourt Alvarez, Y. Mosqueda Laffita, E. Reguera Ruiz, M. Aguilar Frutis, E. Pérez Cappe

Research output: Contribution to journal › Article › peer-review

6 Scopus citations

Abstract

The use of the sugar cane molasses (residual product), as a substitute of the sucrose such as carbon source, for the preparation of sepiolite-graphenelike carbon hybrid nanostructured material, is evaluated for the first time. The synthesised composite presents the higher electronic conductivity reported up to this moment (from 77 to 303 K) in correspondence with its disordered graphenelike carbon component showed by Raman study. Both carbon and sepiolite components in fibrous solids are indistinguishable from scanning electron micrograph and consist of cohesive aggregates, coherently with its high electronic conductivity. This result opens a window for the application of this conducting material at very low temperatures.

Original language	English
Pages (from-to)	508-511
Number of pages	4
Journal	Advances in Applied Ceramics
Volume	111
Issue number	8
DOIs	https://doi.org/10.1179/1743676112Y.0000000036
State	Published - Nov 2012
Externally published	Yes

Keywords

Graphenelike carbon
Sepiolite-graphenelike carbon nanocomposite
Sugar cane molasses

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10.1179/1743676112Y.0000000036

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title = "High conducting sepiolite-graphenelike carbon nanocomposite from sugar residual as carbon source",

abstract = "The use of the sugar cane molasses (residual product), as a substitute of the sucrose such as carbon source, for the preparation of sepiolite-graphenelike carbon hybrid nanostructured material, is evaluated for the first time. The synthesised composite presents the higher electronic conductivity reported up to this moment (from 77 to 303 K) in correspondence with its disordered graphenelike carbon component showed by Raman study. Both carbon and sepiolite components in fibrous solids are indistinguishable from scanning electron micrograph and consist of cohesive aggregates, coherently with its high electronic conductivity. This result opens a window for the application of this conducting material at very low temperatures.",

keywords = "Graphenelike carbon, Sepiolite-graphenelike carbon nanocomposite, Sugar cane molasses",

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year = "2012",

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doi = "10.1179/1743676112Y.0000000036",

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AU - Alvarez, E. Danguillecourt

AU - Laffita, Y. Mosqueda

AU - Ruiz, E. Reguera

AU - Frutis, M. Aguilar

AU - Cappe, E. Pérez

PY - 2012/11

Y1 - 2012/11

N2 - The use of the sugar cane molasses (residual product), as a substitute of the sucrose such as carbon source, for the preparation of sepiolite-graphenelike carbon hybrid nanostructured material, is evaluated for the first time. The synthesised composite presents the higher electronic conductivity reported up to this moment (from 77 to 303 K) in correspondence with its disordered graphenelike carbon component showed by Raman study. Both carbon and sepiolite components in fibrous solids are indistinguishable from scanning electron micrograph and consist of cohesive aggregates, coherently with its high electronic conductivity. This result opens a window for the application of this conducting material at very low temperatures.

AB - The use of the sugar cane molasses (residual product), as a substitute of the sucrose such as carbon source, for the preparation of sepiolite-graphenelike carbon hybrid nanostructured material, is evaluated for the first time. The synthesised composite presents the higher electronic conductivity reported up to this moment (from 77 to 303 K) in correspondence with its disordered graphenelike carbon component showed by Raman study. Both carbon and sepiolite components in fibrous solids are indistinguishable from scanning electron micrograph and consist of cohesive aggregates, coherently with its high electronic conductivity. This result opens a window for the application of this conducting material at very low temperatures.

KW - Graphenelike carbon

KW - Sepiolite-graphenelike carbon nanocomposite

KW - Sugar cane molasses

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DO - 10.1179/1743676112Y.0000000036

M3 - Artículo

SN - 1743-6753

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SP - 508

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JO - Advances in Applied Ceramics

JF - Advances in Applied Ceramics

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ER -

High conducting sepiolite-graphenelike carbon nanocomposite from sugar residual as carbon source

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Keywords

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