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Showing 1–6 of 6 results
Advanced filters: Author: Bradie S. Crandall Clear advanced filters

  • This work develops a method to sequester carbon emissions into valuable 3D printed materials. By combining a reactor cascade with advanced additive manufacturing, this system offers the ability for carbon utilization at scale, a crucial step for addressing climate change.

    • Bradie S. Crandall
    • Matthew Naughton
    • Feng Jiao
    ResearchOpen Access
    Nature Communications
    Volume: 15, P: 1-9

  • Nitric oxide is an environmental pollutant that is typically remediated by selective catalytic reduction at elevated temperatures. Here an electrochemical oxidation pathway is reported at near-ambient conditions, producing a concentrated stream of nitric acid as a valuable product from waste nitric oxide streams.

    • Rong Xia
    • Sydnee Dronsfield
    • Feng Jiao
    Research
    Nature Catalysis
    Volume: 8, P: 328-337

  • Tandem CO2 electrolysis has demonstrated strong potential for transforming captured CO2 into multicarbon products, but more effort is needed in scaling these systems to commercial levels. The authors address this crucial need by elevating tandem CO2 electrolysis to the kilowatt scale, marking a significant step toward real-world implementation.

    • Bradie S. Crandall
    • Byung Hee Ko
    • Feng Jiao
    Research
    Nature Chemical Engineering
    Volume: 1, P: 421-429

  • CO can be reduced electrocatalytically on Cu-based electrodes to acetate and ethanol; however, formation of mixed product streams creates a separation issue. Here, a selective anode for ethanol partial oxidation and an anion exchange membrane with high ethanol permeability are incorporated into an electrolyser to generate pure acetate (>99%) at high concentration (up to 7.6 M).

    • Sean Overa
    • Bradie S. Crandall
    • Feng Jiao
    Research
    Nature Catalysis
    Volume: 5, P: 738-745

  • Polymer membrane electrolysers can convert CO2 into other carbon-based products. This Review discusses different polymer-membrane-based CO2 electrolyser configurations, including anion exchange membranes, proton exchange membranes, bipolar membranes, porous solid electrolytes and tandem systems, and outlines their techno-economic viability.

    • Wanyu Deng
    • Ahryeon Lee
    • Feng Jiao
    Reviews
    Nature Reviews Clean Technology
    Volume: 1, P: 255-268