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Solvent-exchange process in MOF ultrathin films and its effect on CO2 and methanol adsorption

Miguel Andrés, Philippe Fontaine, Michel Goldmann, Christian Serre, Olivier Roubeau, Ignacio Gascón

2021Journal of Colloid and Interface Science28 citationsDOIOpen Access PDF

Abstract

Metal-organic framework (MOF) activation is crucial for the use of MOFs in several applications and solvent-exchange process is a necessary step in many activation methods. In this contribution, we have explored in situ MOF monolayer film formation at the air-water interface. Nanoparticles (NPs) of the Al trimesate MIL-96(Al) retain chloroform into their micropores, which considerably diminishes the CO2 adsorption capacity of MOF films. However, a solvent-exchange process between chloroform and water increases CO2 film adsorption capacity by 30%. Total Reflection X-Ray Fluorescence (TRXF) allows studying the kinetics of this process at the air-water interface, that strongly depends on the NP size. The conclusions derived from in situ studies allow optimizing the ex situ activation procedure of MIL-96(Al) films deposited onto quartz crystal microbalance (QCM) substrates in order to maximize CO2 and methanol adsorption.

Topics & Concepts

Quartz crystal microbalanceAdsorptionSolventChemical engineeringMonolayerMetal-organic frameworkMethanolChemistryNanoparticleMaterials scienceNanotechnologyOrganic chemistryEngineeringMetal-Organic Frameworks: Synthesis and ApplicationsGas Sensing Nanomaterials and SensorsMachine Learning in Materials Science
Solvent-exchange process in MOF ultrathin films and its effect on CO2 and methanol adsorption | Litcius