Zhigang Deng scite author profile

The effect of edge-functionalization on the competitive adsorption of a binary CO2-CH4 mixture in nanoporous carbons (NPCs) has been investigated for the first time by combining density functional theory (DFT) and grand canonical Monte Carlo (GCMC) simulation. Our results show that edge-functionalization has a more positive effect on the single-component adsorption of CO2 than CH4, therefore significantly enhancing the selectivity of CO2 over CH4, in the order of NH2-NPC > COOH-NPC > OH-NPC > H-NPC > NPC at low pressure. The enhanced adsorption originates essentially from the effects of (1) the conducive environment with a large pore size and an effective accessible surface area, (2) the high electronegativity/electropositivity, (3) the strong adsorption energy, and (4) the large electrostatic contribution, due to the inductive effect/direct interaction of the embedded edge-functionalized groups. The larger difference from these effects results in the higher competitive adsorption advantage of CO2 in the binary CO2-CH4 mixture. Temperature has a negative effect on the gas adsorption, but no obvious influence on the electrostatic contribution on selectivity. With the increase of pressure, the selectivity of CO2 over CH4 first decreases sharply and subsequently flattens out to a constant value. This work highlights the potential of edge-functionalized NPCs in competitive adsorption, capture, and separation for the binary CO2-CH4 mixture, and provides an effective and superior alternative strategy in the design and screening of adsorbent materials for carbon capture and storage.

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Initial reduction of CO₂ on perfect and O-defective CeO₂ (111) surfaces: towards CO or COOH?

Wei

Shao

et al. 2015

RSC Adv.

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Zhigang Deng

Hydrothermal doping method for preparation of Cr3+-TiO2 photocatalysts with concentration gradient distribution of Cr3+

Competitive adsorption of a binary CO₂–CH₄mixture in nanoporous carbons: effects of edge-functionalization

Initial reduction of CO₂ on perfect and O-defective CeO₂ (111) surfaces: towards CO or COOH?

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Zhigang Deng

Hydrothermal doping method for preparation of Cr3+-TiO2 photocatalysts with concentration gradient distribution of Cr3+

Competitive adsorption of a binary CO2–CH4mixture in nanoporous carbons: effects of edge-functionalization

Initial reduction of CO2 on perfect and O-defective CeO2 (111) surfaces: towards CO or COOH?

Contact Info

Product

Resources

About

Competitive adsorption of a binary CO₂–CH₄mixture in nanoporous carbons: effects of edge-functionalization

Initial reduction of CO₂ on perfect and O-defective CeO₂ (111) surfaces: towards CO or COOH?