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Scientists intensify electrolysis, utilize carbon dioxide more efficiently with magnets Our ultimate goal is to transform carbon dioxide back into carbon-based chemicals
University of Illinois/Claire Benjamin
Chemical and biomolecular engineering graduate student Saket Bhargava holds a flow electrolysis cell. Zoom in ).addClass( image-details ); var $imageCaption = $( ).addClass( image-caption ).text(caption); $imageDetails.append($imageCaption); element = $( ).append( × ).append($imageHolder).append($imageDetails)[0]; img.draggable = false; if (title) { element.title = title; } if (altText) { element.alt = altText; } $(img).on( load error , callbackWrapper); img.src = url; ....
E-Mail Credit: University of Illinois/Claire Benjamin For decades, researchers have been working toward mitigating excess atmospheric carbon dioxide (CO 2) emissions. One promising approach captures atmospheric CO 2 and then, through CO 2 electrolysis, converts it into value-added chemicals and intermediates like ethanol, ethylene, and other useful chemicals. While significant research has been devoted to improving the rate and selectivity of CO 2 electrolysis, reducing the energy consumption of this high-power process has been underexplored. In ACS Energy Letters, researchers from the University of Illinois Urbana-Champaign report a new opportunity to use magnetism to reduce the energy required for CO 2 electrolysis by up to 60% in a flow electrolyzer. ....
Scientists Utilize Carbon Dioxide More Efficiently with Magnets in Electrolysis labmanager.com - get the latest breaking news, showbiz & celebrity photos, sport news & rumours, viral videos and top stories from labmanager.com Daily Mail and Mail on Sunday newspapers.