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Showing 1–3 of 3 results
Advanced filters: Author: Kyle M. Diederichsen Clear advanced filters

  • Redox-active organic compounds that reversibly bind and release CO2 are promising candidates for carbon capture but are limited by the use of flammable, toxic aprotic electrolytes. Here the authors use salt-concentrated aqueous electrolytes in continuous CO2 separation with good performance metrics.

    • Yayuan Liu
    • Hong-Zhou Ye
    • T. Alan Hatton
    ResearchOpen Access
    Nature Communications
    Volume: 11, P: 1-11

  • Electrochemical methods of CO2 separation offer potentially cheap, low-energy, scalable carbon capture technologies. In this Primer, Diederichsen et al. provide an overview of the experimentation and analysis needed for the study of electrochemical methods for CO2 separation.

    • Kyle M. Diederichsen
    • Rezvan Sharifian
    • T. Alan Hatton
    Reviews
    Nature Reviews Methods Primers
    Volume: 2, P: 1-20

  • This Perspective discusses electrochemically mediated carbon dioxide capture systems, which can offer lower energetics than standard thermal methods, with modular scalability. New integrated configurations can further reduce costs and improve unit productivity, while further engineering of existing cell designs will enable more rapid implementation.

    • Michael Massen-Hane
    • Kyle M. Diederichsen
    • T. Alan Hatton
    Reviews
    Nature Chemical Engineering
    Volume: 1, P: 35-44