Call for Papers: Metal-Organic Frameworks Interactions with Bulk and Confined Liquids
Introduction
Metal–organic frameworks (MOFs) are nanoporous crystalline materials that form through the self-assembly process of metal nodes and organic ligands. The materials exhibit extremely high surface areas together with adjustable pore structures, which make them suitable for multiple uses, including catalysis, gas storage, molecular separation and biomedical technologies. The 2025 Nobel Prize in Chemistry, which honoured nanoporous material research advancements, demonstrates their importance to contemporary chemistry and materials science.
The process of synthesising MOFs requires the use of liquids, which help to maintain their structural integrity and provide maximum ability to function. MOFs form framework structures through their interactions with liquids, which determine the pathways that substances use to travel between host materials and the physical and chemical properties of liquids that exist in nanoporous spaces. These interactions become vital for processes that use catalysis and adsorption, and separation technologies.
The special issue “Metal-Organic Frameworks research services” invites researchers to submit their studies about MOF-liquid interactions, which have scientific and industrial applications. Researchers who study Metal-Organic Frameworks should conduct experiments that examine how liquids behave within MOF systems for their research work.
Scope
The special issue presents research that investigates how metal–organic frameworks interact with liquid systems by studying their thermodynamic properties and molecular interactions, and their practical use in nanoporous material research.
Know More About This Issue
Researchers use metal–organic frameworks to investigate liquid behaviour when it exists under nanoscale confinement. The thermodynamic properties, molecular structure and dynamic behaviour of liquids in MOF materials show different patterns from their standard bulk liquid behaviour. The material design process needs these interactions to be understood because they play a vital role in creating advanced materials for energy storage and environmental remediation, and chemical processing.
The Journal of Molecular Liquids special issue aims to encourage interdisciplinary research collaboration between scientists who study nanoporous materials, thermodynamics, molecular chemistry and materials science. The researchers who work with Metal-Organic Frameworks services and MOF research assistance obtain important research results through their work with both experimental studies and advanced computer modelling methods.
Researchers can now better comprehend how molecules interact with nanoporous materials thanks to improved MOF molecular modelling services and adsorption analysis support. The advancements exist to enhance the stability and efficiency of MOF systems, which operate in liquid environments while also making these systems more suitable for industrial use.
Key Themes
How We Support Your Submission
The Journal of Molecular Liquids requires authors to present their work using structured scientific methods and clearly defined experimental or theoretical frameworks. Our expert team provides comprehensive publication assistance to help researchers prepare high-quality manuscripts.
Journal Guidelines:
Important Dates
Submission Deadline: 4 September 2026
To ensure successful and timely submission to the special issue “Metal-Organic Frameworks Interactions with Bulk and Confined Liquids,” researchers are encouraged to seek expert publication support from conceptualisation to final submission.
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Reference
Elsevier. (2026, March 10). Metal-organic frameworks: Interactions with bulk and confined liquids (Call for papers). Journal of Molecular Liquids. https://www.sciencedirect.com/journal