Nanostructured Electrodes for High-Performance Supercapacitors and Batteries
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https://mdpi.com/books/pdfview/book/8361Contributor(s)
Wu, Xiang (editor)
Language
EnglishAbstract
I am grateful to all the authors who contributed to this Special Issue and the referees for reviewing the manuscripts. Finally, I give my thanks to Ms. Alisa Si and all the editorial staff of Nanomaterials for their support during the publication of this Special Issue.
Keywords
Si; MnO2; rGO; sea urchin-like structure; lithium-ion battery; high performance; silica-based anode; Ketjen Black; electrochemical properties; pseudocapacitor; carbon nanotube; polyaniline; fractional-order circuit model; memory effect; fractional derivative; zinc-ion batteries; conducting polymers; zinc-ion diffusion; metal–organic framework; supercapacitors; energy density; specific capacitance; stability; self-powered; wearable flexible sensor; energy harvesting; human motion monitoring; triboelectric nanogenerator; NiMoO4@MnCo2O4; microstructure; electrochemical performance; cycling stability; semiconductor superlattice; dielectric capacity; energy storage; first-principles calculation; supercapacitor; organic crosslinked polymer; porous carbon; electrochemistry; α-Fe2O3@MnO2; electrode materials; flexibility; hydrogen generation; porous titanium oxide cage; PtNi nanoparticles; sodium borohydride hydrolysis; NaBH4; graphene oxide; catalytic activity; hydrolysis; aqueous zinc ion battery; transition metal chalcogenides; layered structure; cathode; energy storage mechanism; g-C3N4; perovskite solar cells; additive; surface modifier layer; Li-rich cathode material; voltage and capacity fade; testing mode; cobalt-containing nanomaterials; morphological design; bio-derived hard carbon; Coulomb efficiency; Na-ion batteries; storage mechanism; fibrous phosphorus; lithium-Ion battery; anode; CuMn2O4; nanosheet arrays; hydrothermal; battery-type; CoO@rGO; graphene; MOF; flexible electrodes; hollow structure; ultrafast integration; lithium-ion batteries; proton exchange membrane fuel cell; mechanical vibration; durability; platinum migration; accelerated stress test; n/aWebshop link
https://mdpi.com/books/pdfview ...ISBN
9783036595818, 9783036595801Publisher website
www.mdpi.com/booksPublication date and place
Basel, 2023Classification
Research and information: general
Physics
Pages
304
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https://creativecommons.org/licenses/by/4.0/