date: 2014-02-25T14:33:55Z
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pdf:docinfo:title: CO2 Separation and Capture Properties of Porous Carbonaceous Materials from Leather Residues
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subject: Carbonaceous porous materials derived from leather skin residues have been found to have excellent CO2 adsorption properties, with interestingly high gas selectivities for CO2 (? > 200 at a gas composition of 15% CO2/85% N2, 273K, 1 bar) and capacities 
(>2 mmol?g?1 at 273 K). Both CO2 isotherms and the high heat of adsorption pointed to the presence of strong binding sites for CO2 which may be correlated with both: N content in the leather residues and ultrasmall pore sizes.

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dc:title: CO2 Separation and Capture Properties of Porous Carbonaceous Materials from Leather Residues
modified: 2014-02-25T14:33:55Z
cp:subject: Carbonaceous porous materials derived from leather skin residues have been found to have excellent CO2 adsorption properties, with interestingly high gas selectivities for CO2 (? > 200 at a gas composition of 15% CO2/85% N2, 273K, 1 bar) and capacities 
(>2 mmol?g?1 at 273 K). Both CO2 isotherms and the high heat of adsorption pointed to the presence of strong binding sites for CO2 which may be correlated with both: N content in the leather residues and ultrasmall pore sizes.

pdf:docinfo:subject: Carbonaceous porous materials derived from leather skin residues have been found to have excellent CO2 adsorption properties, with interestingly high gas selectivities for CO2 (? > 200 at a gas composition of 15% CO2/85% N2, 273K, 1 bar) and capacities 
(>2 mmol?g?1 at 273 K). Both CO2 isotherms and the high heat of adsorption pointed to the presence of strong binding sites for CO2 which may be correlated with both: N content in the leather residues and ultrasmall pore sizes.

pdf:docinfo:creator: José M. Bermúdez, Pablo Haro Dominguez, Ana Arenillas, Jaume Cot, Jens Weber and Rafael Luque
meta:author: José M. Bermúdez, Pablo Haro Dominguez, Ana Arenillas, Jaume Cot, Jens Weber and Rafael Luque
meta:creation-date: 2013-10-18T04:22:18Z
created: 2013-10-18T04:22:18Z
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Creation-Date: 2013-10-18T04:22:18Z
Author: José M. Bermúdez, Pablo Haro Dominguez, Ana Arenillas, Jaume Cot, Jens Weber and Rafael Luque
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dc:description: Carbonaceous porous materials derived from leather skin residues have been found to have excellent CO2 adsorption properties, with interestingly high gas selectivities for CO2 (? > 200 at a gas composition of 15% CO2/85% N2, 273K, 1 bar) and capacities 
(>2 mmol?g?1 at 273 K). Both CO2 isotherms and the high heat of adsorption pointed to the presence of strong binding sites for CO2 which may be correlated with both: N content in the leather residues and ultrasmall pore sizes.

Keywords: CO2 sequestration; leather residues; carbon materials; porous materials
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dc:creator: José M. Bermúdez, Pablo Haro Dominguez, Ana Arenillas, Jaume Cot, Jens Weber and Rafael Luque
description: Carbonaceous porous materials derived from leather skin residues have been found to have excellent CO2 adsorption properties, with interestingly high gas selectivities for CO2 (? > 200 at a gas composition of 15% CO2/85% N2, 273K, 1 bar) and capacities 
(>2 mmol?g?1 at 273 K). Both CO2 isotherms and the high heat of adsorption pointed to the presence of strong binding sites for CO2 which may be correlated with both: N content in the leather residues and ultrasmall pore sizes.

dcterms:created: 2013-10-18T04:22:18Z
Last-Modified: 2014-02-25T14:33:55Z
dcterms:modified: 2014-02-25T14:33:55Z
title: CO2 Separation and Capture Properties of Porous Carbonaceous Materials from Leather Residues
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pdf:docinfo:keywords: CO2 sequestration; leather residues; carbon materials; porous materials
pdf:docinfo:modified: 2014-02-25T14:33:55Z
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creator: José M. Bermúdez, Pablo Haro Dominguez, Ana Arenillas, Jaume Cot, Jens Weber and Rafael Luque
dc:subject: CO2 sequestration; leather residues; carbon materials; porous materials
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meta:keyword: CO2 sequestration; leather residues; carbon materials; porous materials
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pdf:docinfo:created: 2013-10-18T04:22:18Z