Yunxia Zhao scite author profile

New composites Cu-BTC MOF and graphite oxide modified with urea (GO-U) are developed and tested as CO2 adsorbents at room temperature. The composite containing GO-U with the highest nitrogen content exhibits an excellent CO2 uptake (4.23 mmol/g) at dynamic conditions. The incorporation of GO-U into MOF changes the chemistry and microstructure of the parent MOF and results in synergistic features beneficial for CO2 retention on the surface. To identify these features the initial and exhausted materials were extensively characterized from the points of view of their porosity and chemistry. Although the adsorption forces are relatively strong, the results indicate that CO2 is mainly physisorbed on the composites at dry dynamic conditions at ambient temperature and pressure. The primary adsorption sites include small micropores specific for the composites, open Cu sites, and cage window sites.

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Yunxia Zhao

Preparation and enhanced CO2 adsorption capacity of UiO-66/graphene oxide composites

Aminated graphite oxides and their composites with copper-based metal–organic framework: in search for efficient media for CO2 sequestration

Superior Performance of Copper Based MOF and Aminated Graphite Oxide Composites as CO₂ Adsorbents at Room Temperature

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Yunxia Zhao

Preparation and enhanced CO2 adsorption capacity of UiO-66/graphene oxide composites

Aminated graphite oxides and their composites with copper-based metal–organic framework: in search for efficient media for CO2 sequestration

Superior Performance of Copper Based MOF and Aminated Graphite Oxide Composites as CO2 Adsorbents at Room Temperature

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Product

Resources

About

Superior Performance of Copper Based MOF and Aminated Graphite Oxide Composites as CO₂ Adsorbents at Room Temperature