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Literature DB >> 30358783

Humidity-induced CO₂ capture enhancement in Mg-CUK-1.

Mónica Sagastuy-Breña¹, Paulo G M Mileo, Elí Sánchez-González, Joseph E Reynolds, Tamara Jurado-Vázquez, Jorge Balmaseda, Eduardo González-Zamora, Sabine Devautour-Vinot, Simon M Humphrey, Guillaume Maurin, Ilich A Ibarra.

Abstract

Kinetic CO2 adsorption measurements in the water-stable and permanently microporous Metal-organic framework material, Mg-CUK-1, reveal a 1.8-fold increase in CO2 capture from 4.6 wt% to 8.5 wt% in the presence of 18% relative humidity. Thermodynamic CO2 uptake experiments corroborate this enhancement effect, while grand canonical Monte Carlo simulations also support the phenomenon of a humidity-induced increase in the CO2 sorption capacity in Mg-CUK-1. Molecular simulations were implemented to gain insight into the microscopic adsorption mechanism responsible for the observed CO2 sorption enhancement. These simulations indicate that the cause of increasing CO2 adsorption enthalpy in the presence of H2O is due to favorable intermolecular interactions between the co-adsorbates confined within the micropores of Mg-CUK-1.

Entities: Chemical

Year: 2018 PMID： 30358783 DOI： 10.1039/c8dt03365j

Source DB: PubMed Journal: Dalton Trans ISSN： 1477-9226 Impact factor: 4.390

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Cited

4 in total

1. Confined toluene within InOF-1: CO₂ capture enhancement.

Authors: L Pamela Garrido-Olvera; Jonathan E Sanchez-Bautista; Daniel Alvarado-Alvarado; Bruno Landeros-Rivera; J Raziel Álvarez; Rubicelia Vargas; Eduardo González-Zamora; Jorge Balmaseda; Hugo A Lara-García; Ana Martínez; Ilich A Ibarra
Journal: RSC Adv Date: 2019-10-15 Impact factor: 4.036

2. Fluorinated MIL-101 for carbon capture utilisation and storage: uptake and diffusion studies under relevant industrial conditions.

Authors: Paola A Sáenz Cavazos; Mariana L Díaz-Ramírez; Elwin Hunter-Sellars; Sean R McIntyre; Enrique Lima; Ilich A Ibarra; Daryl R Williams
Journal: RSC Adv Date: 2021-04-12 Impact factor: 3.361

3. A series of four novel alkaline earth metal-organic frameworks constructed of Ca(ii), Sr(ii), Ba(ii) ions and tetrahedral MTB linker: structural diversity, stability study and low/high-pressure gas adsorption properties.

Authors: Miroslav Almáši; Vladimír Zeleňák; Róbert Gyepes; Ľuboš Zauška; Sandrine Bourrelly
Journal: RSC Adv Date: 2020-09-01 Impact factor: 4.036

4. Bottleneck Effect Explained by Le Bail Refinements: Structure Transformation of Mg-CUK-1 by Confining H₂O Molecules.

Authors: Elí Sánchez-González; J Gabriel Flores; Julio C Flores-Reyes; Ivette Morales-Salazar; Roberto E Blanco-Carapia; Mónica A Rincón-Guevara; Alejandro Islas-Jácome; Eduardo González-Zamora; Julia Aguilar-Pliego; Ilich A Ibarra
Journal: Materials (Basel) Date: 2020-04-14 Impact factor: 3.623

4 in total

Humidity-induced CO2 capture enhancement in Mg-CUK-1.

1. Confined toluene within InOF-1: CO2 capture enhancement.

2. Fluorinated MIL-101 for carbon capture utilisation and storage: uptake and diffusion studies under relevant industrial conditions.

3. A series of four novel alkaline earth metal-organic frameworks constructed of Ca(ii), Sr(ii), Ba(ii) ions and tetrahedral MTB linker: structural diversity, stability study and low/high-pressure gas adsorption properties.

4. Bottleneck Effect Explained by Le Bail Refinements: Structure Transformation of Mg-CUK-1 by Confining H2O Molecules.

Humidity-induced CO₂ capture enhancement in Mg-CUK-1.

1. Confined toluene within InOF-1: CO₂ capture enhancement.

4. Bottleneck Effect Explained by Le Bail Refinements: Structure Transformation of Mg-CUK-1 by Confining H₂O Molecules.