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Metal‐Organic Frameworks (MOFs) As Hydrogen Storage Materials At Near‐Ambient Temperature

Ashley L. Sutton, James I. Mardel, Matthew R. Hill

2024Chemistry - A European Journal69 citationsDOIOpen Access PDF

Abstract

Hydrogen may play a critical role in our efforts to de-carbonize by 2050. However, there remain technical challenges in the storage and transport of hydrogen. Metal-organic frameworks (MOFs) have shown significant promise for hydrogen storage at cryogenic temperatures. A material that can meet the US department of energy (DOE) ultimate goal of 6.5 wt. % for gravimetric performance and 50 g/L for volumetric storage at near-ambient temperatures would unlock hydrogen as a future fuel source for on-board applications. Metal-organic frameworks typically have low heat of adsorptions (i. e. 4-7 kJ/mol), whereas for storing significant quantities of hydrogen at near-ambient temperatures, 15-25 kJ/mol is likely required. In this review we explore the current methods used (i. e., open-metal sites, alkali dopants and hydrogen spillover) for promoting strong adsorption within MOFs. Further we discuss MOF-based materials with respect to the technical aspects of deliverable capacity, kinetics and stability.

Topics & Concepts

Hydrogen storageGravimetric analysisMetal-organic frameworkHydrogenHydrogen spilloverMaterials scienceEnergy storageCryo-adsorptionChemical engineeringHydrogen fuelAdsorptionNanotechnologyMetalChemistryMetallurgyOrganic chemistryThermodynamicsEngineeringPower (physics)PhysicsMetal-Organic Frameworks: Synthesis and ApplicationsHydrogen Storage and MaterialsCarbon dioxide utilization in catalysis