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Electrochemical Cycling of Liquid Organic Hydrogen Carriers as a Sustainable Approach for Hydrogen Storage and Transportation

Moses D. Chilunda, S. A. Talipov, H. Farooq, Elizabeth J. Biddinger

2025ACS Sustainable Chemistry & Engineering35 citationsDOIOpen Access PDF

Abstract

pose a challenge for long-term storage and transportation. Liquid organic hydrogen carriers (LOHCs) have been suggested as a strategic way to store and transport hydrogen in stable molecules. More so, electrochemical LOHC cycling renders an opportunity to utilize renewable energy for hydrogen storage and transportation toward the goal of eliminating carbon emissions. In this Perspective, examples of electrochemical reactions of organic molecules and their suitability for LOHC couples are examined. A comparative carbon footprint assessment of electrochemical LOHC cycling processes against thermochemical and hybrid LOHC cycling processes was performed. The electrochemical LOHC cycling process had the lowest relative carbon footprint only when highly concentrated LOHCs were used as the feed or when purification of the LOHC product was not required. The carbon footprint in electrochemical cycling of diluted LOHC was primarily contributed to by the LOHC distillation separation process. A sensitivity analysis showed the carbon footprint LOHC concentration dependence during the electrochemical cycling process. Moreover, the electrolyte composition significantly affects the carbon footprint during electrochemical LOHC cycling. Energy utilization, water usage, and toxicity for electrochemical LOHC cycling are discussed to provide an overview for better economic and environmental practices. There are significant opportunities in the electrochemical cycling of LOHCs if appropriate conditions such as high concentrations of reactant, reversible redox cycling ability, high Faradaic efficiencies, and catalyst stabilities are achieved.

Topics & Concepts

ElectrochemistryCyclingHydrogen storageCarbon fibersCarbon footprintRenewable energyEnergy storageHydrogenChemistryMaterials scienceElectrodeGreenhouse gasOrganic chemistryEcologyPhysical chemistryComposite materialEngineeringPhysicsPower (physics)Quantum mechanicsComposite numberHistoryElectrical engineeringBiologyArchaeologyAdvanced Battery Materials and TechnologiesAdvanced battery technologies researchCO2 Reduction Techniques and Catalysts
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