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Literature DB >> 19128185

Adsorption and reactivity of CO(2) on defective graphene sheets.

Abstract

Density-functional calculations have been performed to investigate the adsorption of CO(2) on defected graphite (0001) represented by a single graphene sheet. The interaction with a vacancy defect gives a computed molecular binding energy of approximately 136 meV in a strong physisorbed state. Subsequently, chemisorption by lactone group formation will occur after overcoming a barrier of approximately 1 eV relative to the gas phase, with an exothermicity of about 1.4 eV. Further reaction paths from this chemisorbed state lead to dissociation of the CO(2) through the formation of epoxy groups followed by oxygen recombination and desorption of O(2), after overcoming successive energy barriers of approximately 0.9 and approximately 1.0 eV. The global minimum ("O(2) desorbed + graphene sheet") entails an energy release of about 3.4 eV with respect to the initial state.

Entities: Chemical Disease

Year: 2009 PMID： 19128185 DOI： 10.1021/jp807087y

Source DB: PubMed Journal: J Phys Chem A ISSN： 1089-5639 Impact factor: 2.781

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Cited

5 in total

1. DFT study of CO₂ and H₂O co-adsorption on carbon models of coal surface.

Authors: Zhengyang Gao; Yi Ding
Journal: J Mol Model Date: 2017-05-12 Impact factor: 1.810

2. Demonstrating and Unraveling a Controlled Nanometer-Scale Expansion of the Vacancy Defects in Graphene by CO₂.

Authors: Mojtaba Rezaei; Luis Francisco Villalobos; Kuang-Jung Hsu; Kumar Varoon Agrawal
Journal: Angew Chem Int Ed Engl Date: 2022-03-16 Impact factor: 16.823

3. A comparative study of mechanisms of the adsorption of CO₂ confined within graphene-MoS₂ nanosheets: a DFT trend study.

Authors: Francis M Enujekwu; Collins I Ezeh; Michael W George; Mengxia Xu; Hainam Do; Yue Zhang; Haitao Zhao; Tao Wu
Journal: Nanoscale Adv Date: 2019-01-14

4. Experimental and theoretical study of the effect of different functionalities of graphene oxide/polymer composites on selective CO₂ capture.

Authors: Branislav Stankovic; Iranzu Barbarin; Oihane Sanz; Radmila Tomovska; Fernando Ruipérez
Journal: Sci Rep Date: 2022-09-26 Impact factor: 4.996

5. Theoretical Investigation of Carbon Dioxide Adsorption on Li⁺-Decorated Nanoflakes.

Authors: Igor K Petrushenko; Nikolay A Ivanov; Konstantin B Petrushenko
Journal: Molecules Date: 2021-12-20 Impact factor: 4.411

5 in total

Adsorption and reactivity of CO(2) on defective graphene sheets.

1. DFT study of CO2 and H2O co-adsorption on carbon models of coal surface.

2. Demonstrating and Unraveling a Controlled Nanometer-Scale Expansion of the Vacancy Defects in Graphene by CO2.

3. A comparative study of mechanisms of the adsorption of CO2 confined within graphene-MoS2 nanosheets: a DFT trend study.

4. Experimental and theoretical study of the effect of different functionalities of graphene oxide/polymer composites on selective CO2 capture.

5. Theoretical Investigation of Carbon Dioxide Adsorption on Li+-Decorated Nanoflakes.

1. DFT study of CO₂ and H₂O co-adsorption on carbon models of coal surface.

2. Demonstrating and Unraveling a Controlled Nanometer-Scale Expansion of the Vacancy Defects in Graphene by CO₂.

3. A comparative study of mechanisms of the adsorption of CO₂ confined within graphene-MoS₂ nanosheets: a DFT trend study.

4. Experimental and theoretical study of the effect of different functionalities of graphene oxide/polymer composites on selective CO₂ capture.

5. Theoretical Investigation of Carbon Dioxide Adsorption on Li⁺-Decorated Nanoflakes.