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A review of fluids under nanoconfinement: Reactivity, geomechanics, phase transitions, and flow

Kevin L. McCormack, Jiaoyan Li, Tyler J. Yoklavich, Yidong Xia

2024Physics of Fluids16 citationsDOIOpen Access PDF

Abstract

Due to its many industrial applications, the physics associated with the nanoconfinement of fluids has garnered great attention from the scientific community in roughly the last fifteen years. One pioneer of that research has been the Multi-Scale Fluid-Solid Interactions in Architected and Natural Materials (MUSE) Energy Frontier Research Center, which produced more than 50 journal articles from 2018 to 2023. We structure the findings of MUSE into four categories and contextualize the work with the broader literature. The four categories are (1) the dependence of chemical reactions on the degree of confinement, which given the lower freedom of motion of molecules yet improved availability of reaction sites generally lead to enhancement from bulk reactions; (2) the mechanical properties of the porous matrix, which are dependent on the heterogeneity of the system in terms of both composition and structure,; (3) the phase transitions under nanoconfinement, which are influenced by the pore size and morphology, surface chemistry, and substrate composition; and (4) the physical controls of slip flow, which demonstrate the importance of several factors, such as wettability. These aspects of nanoconfinement are becoming clearer, but there are other elements such as mathematical theory that are still being developed.

Topics & Concepts

PhysicsWettingPorous mediumNanotechnologyPorosityFlow propertiesChemical physicsMechanicsThermodynamicsChemistryMaterials scienceOrganic chemistryNanopore and Nanochannel Transport StudiesEnhanced Oil Recovery TechniquesLattice Boltzmann Simulation Studies
A review of fluids under nanoconfinement: Reactivity, geomechanics, phase transitions, and flow | Litcius