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Electrochemistry‐Based CO<sub>2</sub> Removal Technologies

Tessa Lund Biel‐Nielsen, T. Alan Hatton, Sebastian Nis Bay Villadsen, Jan S. Jakobsen, Jacob Bonde, Alfred M. Spormann, Philip Loldrup Fosbøl

2023ChemSusChem33 citationsDOIOpen Access PDF

Abstract

Abstract Unprecedented increase in atmospheric CO 2 levels calls for efficient, sustainable, and cost‐effective technologies for CO 2 removal, including both capture and conversion approaches. Current CO 2 abatement is largely based on energy‐intensive thermal processes with a high degree of inflexibility. In this Perspective, it is argued that future CO 2 technologies will follow the general societal trend towards electrified systems. This transition is largely promoted by decreasing electricity prices, continuous expansion of renewable energy infrastructure, and breakthroughs in carbon electrotechnologies, such as electrochemically modulated amine regeneration, redox‐active quinones and other species, and microbial electrosynthesis. In addition, new initiatives make electrochemical carbon capture an integrated part of Power‐to‐X applications, for example, by linking it to H 2 production. Selected electrochemical technologies crucial for a future sustainable society are reviewed. However, significant further development of these technologies within the next decade is needed, to meet the ambitious climate goals.

Topics & Concepts

Renewable energyElectrosynthesisElectricityElectrochemistryNanotechnologySustainable energyEmerging technologiesEnvironmental scienceEnvironmental economicsProcess engineeringNatural resource economicsBiochemical engineeringChemistryMaterials scienceEngineeringEconomicsElectrodeElectrical engineeringPhysical chemistryCO2 Reduction Techniques and CatalystsCarbon Dioxide Capture TechnologiesAdvanced battery technologies research
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