Litcius/Paper detail

Experimental and molecular simulation study of CO2 adsorption in ZIF-8: Atomic heat contributions and mechanism

Nikom Klomkliang, Nattanon Threerattanakulpron, Wikanda Wongsombat, Poomiwat Phadungbut, Somboon Chaemchuen, Somsak Supasitmongkol, Jarosław Serafin, Luis F. Herrera Diaz

2024Journal of Industrial and Engineering Chemistry22 citationsDOIOpen Access PDF

Abstract

• ZIF-8 was synthesised at room temperature • Isotherms and isosteric heat obtained with experiments and GCMC simulations agree well. • The solid atoms contributions are calculated with GCMC simulations. We successfully synthesised ZIF-8 using the solvothermal method at room temperature to study CO 2 adsorption storage at 273 and 298 K up to 35 bar. Characterisation methods such as BET, SEM-EDS, XRD, and TGA were used to measure the physical and composition properties of ZIF-8. Grand canonical Monte Carlo (GCMC) simulation was conducted to compare with experimental data and get inside of the CO 2 adsorption mechanism by calculating the isosteric heat and its fluid–fluid and solid–fluid contributions. The second was also split into fluid–solid atom contributions to understand in detail the interaction between CO 2 and ZIF-8. The analyses revealed that there are three main stages during the CO 2 adsorption gas–solid atom contributions, developing, pore-filling and densification. During the developing and pore-filling stages the largest fluid–solid atom contribution to the isosteric heat is CO 2 -C2 interactions, indicating that the CO 2 is adsorbed close to the hexagonal windows of the ZIF-8 structure, while during the densification stage the largest contribution is CO 2 -N interactions. Where C2 and N refers to C-atom and N-atom, respectively in NCH group of the solid framework. This is because CO 2 changes its orientation to be able to accommodate more molecules in the pore cavity. This work provides a better understanding of the adsorption mechanism of CO 2 on ZIF-8 and shows how molecular simulation can be used to improve the understanding gas adsorption storage on metal–organic frameworks

Topics & Concepts

Mechanism (biology)AdsorptionChemistryChemical physicsMaterials scienceChemical engineeringPhysical chemistryPhysicsEngineeringQuantum mechanicsMetal-Organic Frameworks: Synthesis and ApplicationsCarbon Dioxide Capture TechnologiesCovalent Organic Framework Applications