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The application of amine-based materials for carbon capture and utilisation: an overarching view

Louise Hamdy, Chitrakshi Goel, Jennifer Rudd Orcid Logo, Andrew Barron Orcid Logo, Enrico Andreoli Orcid Logo

Materials Advances, Volume: 2, Issue: 18, Pages: 5843 - 5880

Swansea University Authors: Louise Hamdy, Chitrakshi Goel, Jennifer Rudd Orcid Logo, Andrew Barron Orcid Logo, Enrico Andreoli Orcid Logo

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DOI (Published version): 10.1039/d1ma00360g

Abstract

In the ongoing research campaign to reduce the global atmospheric CO2 concentration, technologies are being developed to enable the capture of CO2 from dilute sources and conversion into higher-value products. Amine and polyamine-based materials feature widely in the literature as solid CO2 sorbents...

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Published in: Materials Advances
ISSN: 2633-5409
Published: Royal Society of Chemistry (RSC) 2021
Online Access: Check full text

URI: https://cronfa.swan.ac.uk/Record/cronfa57952
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Abstract: In the ongoing research campaign to reduce the global atmospheric CO2 concentration, technologies are being developed to enable the capture of CO2 from dilute sources and conversion into higher-value products. Amine and polyamine-based materials feature widely in the literature as solid CO2 sorbents and as catalyst modifiers for CO2 electrochemical reduction; however, advancing lab-scale research into a pilot or industrial-scale application is fraught with challenges, starting with the definition and identification of an effective adsorbent. This multidisciplinary review serves as an essential introduction to the role of amines in carbon capture and utilisation for scientists entering and advancing the field. The chemical and engineering principles of amine-based CO2 capture are considered to define the parameters required of an adsorbent, describe adsorption testing methods, and introduce the reader to a range of amine-based adsorbents and how they can be specialised to overcome specific issues. Finally, the application of electrocatalysts modified with nitrogen-containing compounds and polymers is reviewed in the context of CO2 utilisation.
College: Faculty of Science and Engineering
Funders: Reducing Industrial Carbon Emissions (RICE) and Flexible Integrated Energy Systems (FLEXIS) research operations part-funded by the EU’s European Regional Development Fund through the Welsh Government. Support was also provided by the Engineering and Physical Sciences Research Council through the SUSTAIN Manufacturing Hub EP/S018107/1 and project EP/N009525/1.
Issue: 18
Start Page: 5843
End Page: 5880

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