Saran-Derived Carbons for CO sub(2) and Benzene Sorption at Ambient Conditions
A series of microporous carbons was obtained through carbonization of Saran polymer (poly(vinylidene chloride-co-vinyl chloride)) at various temperatures. The resulting carbons were also activated with KOH to obtain highly microporous carbons. The activated carbons possessed well-developed porous st...
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| Veröffentlicht in: | Industrial & engineering chemistry research 2014-10, Vol.53 (40), p.15383-15388 |
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| container_title | Industrial & engineering chemistry research |
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| creator | Dziura, Aleksandra Marszewski, Michal Choma, Jerzy Souza, Luiz KCde Osuchowski, Lukasz Jaroniec, Mietek |
| description | A series of microporous carbons was obtained through carbonization of Saran polymer (poly(vinylidene chloride-co-vinyl chloride)) at various temperatures. The resulting carbons were also activated with KOH to obtain highly microporous carbons. The activated carbons possessed well-developed porous structures: specific surface area in the range 1460-2200 m super(2)/g, micropore volume in the range of 0.65-0.96 cm super(3)/g, and ultramicropore volume in the range of 0.18-0.25 cm super(3)/g. The well-developed porous structure of these carbons resulted in high CO sub(2) and benzene uptakes: CO sub(2) uptake of 6.7 mmol/g at 0 degree C and 3.9 mmol/g at 25 degree C (both at ca. 800 mmHg) and benzene uptake of 11.6 mmol/g at 20 degree C (at a pressure close to the saturation vapor pressure). This study shows that simple but controlled carbonization and activation of commercially available polymers such as Saran can afford high surface area carbon sorbents for CO sub(2) and benzene adsorption and for related environment remediation applications. |
| doi_str_mv | 10.1021/ie5004448 |
| format | Article |
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The resulting carbons were also activated with KOH to obtain highly microporous carbons. The activated carbons possessed well-developed porous structures: specific surface area in the range 1460-2200 m super(2)/g, micropore volume in the range of 0.65-0.96 cm super(3)/g, and ultramicropore volume in the range of 0.18-0.25 cm super(3)/g. The well-developed porous structure of these carbons resulted in high CO sub(2) and benzene uptakes: CO sub(2) uptake of 6.7 mmol/g at 0 degree C and 3.9 mmol/g at 25 degree C (both at ca. 800 mmHg) and benzene uptake of 11.6 mmol/g at 20 degree C (at a pressure close to the saturation vapor pressure). 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The resulting carbons were also activated with KOH to obtain highly microporous carbons. The activated carbons possessed well-developed porous structures: specific surface area in the range 1460-2200 m super(2)/g, micropore volume in the range of 0.65-0.96 cm super(3)/g, and ultramicropore volume in the range of 0.18-0.25 cm super(3)/g. The well-developed porous structure of these carbons resulted in high CO sub(2) and benzene uptakes: CO sub(2) uptake of 6.7 mmol/g at 0 degree C and 3.9 mmol/g at 25 degree C (both at ca. 800 mmHg) and benzene uptake of 11.6 mmol/g at 20 degree C (at a pressure close to the saturation vapor pressure). 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The resulting carbons were also activated with KOH to obtain highly microporous carbons. The activated carbons possessed well-developed porous structures: specific surface area in the range 1460-2200 m super(2)/g, micropore volume in the range of 0.65-0.96 cm super(3)/g, and ultramicropore volume in the range of 0.18-0.25 cm super(3)/g. The well-developed porous structure of these carbons resulted in high CO sub(2) and benzene uptakes: CO sub(2) uptake of 6.7 mmol/g at 0 degree C and 3.9 mmol/g at 25 degree C (both at ca. 800 mmHg) and benzene uptake of 11.6 mmol/g at 20 degree C (at a pressure close to the saturation vapor pressure). This study shows that simple but controlled carbonization and activation of commercially available polymers such as Saran can afford high surface area carbon sorbents for CO sub(2) and benzene adsorption and for related environment remediation applications.</abstract><doi>10.1021/ie5004448</doi></addata></record> |
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| source | ACS Publications |
| subjects | Activated carbon Benzene Carbon Carbon dioxide Carbonization Chlorides Polyvinylidene chlorides Specific surface Uptakes |
| title | Saran-Derived Carbons for CO sub(2) and Benzene Sorption at Ambient Conditions |
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