Scalable, low-cost nanocomposite combines high energy storage capacity with efficient pollutant removal for novel supercapacitors
https://www.eurekalert.org/news-releases/1084692
"embedding relying on high-cost graphene/ carbon nanotubes, excessive metal amounts, complex, time-consuming, toxic, overcome anchoring bimetallic/ trimetallic molybdates into nitrogen-, boron-, and fluorine-doped hollow carbon nanofibers... dopants enhance carbon scaffold conductivity/ reactivity... hollow structure maximizes surface area available for reactions... 1,419.2 F/g specific capacitance, maintains 86% of initial capacity after 10K cycles... as catalyst degrades common industrial pollutant 4-nitrophenol"
Related: India’s Rare-Earth Supercapacitor Breakthrough Paves Way for Next-Gen Energy Storage
https://www.eqmagpro.com/indias-rare-earth-supercapacitor-breakthrough-paves-way-for-next-gen-energy-storage-eq/
https://www.eqmagpro.com/indias-rare-earth-supercapacitor-breakthrough-paves-way-for-next-gen-energy-storage-eq/
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