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In energy storage materials, large surface areas and oriented structures are key architecture design features for improving performance through enhanced electrolyte access and efficient electron conduction pathways. Layered hydroxides provide a tunable materials platform with opportunities for achieving such nanostructures via bottom‐up syntheses. These nanostructures, however, can degrade in the...
A layered Co(OH)2‐organic hybrid material consisting of multi‐walled nanotubes with preferred alignment is reported by Samuel I. Stupp and co‐workers in article number 1702320. Electrodeposited on conductive substrates, the material functions as energy storage electrode. The molecular structure of the organic component determines the morphology of the hybrid material and its resulting electrochemical...
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