High-performance metal oxide nanoparticle materials synthesised using polar aprotic solvents for advanced supercapacitor applications
Muhammad Nasir Hussain, Abid Inayat, Syed Mujtaba Shah, Mohammad Ihsun, Ali Haider, Syed Mustansar Abbas, Stephen G. Hickey
Abstract
demonstrating that they also possess high cycle stability. These results confirm the viability of the rational design methodology employed here for the surfactant free synthesis of electrode materials for deployment in energy storage applications.
Topics & Concepts
Materials scienceSupercapacitorChemical engineeringNon-blocking I/OPulmonary surfactantNickelNanomaterialsNanoparticleTin dioxideHydroxideElectrodeManganeseNickel oxideTin oxideOxideElectrochemistryMetal hydroxideNanotechnologyCurrent densityDimethylformamideInorganic chemistryPower densityEnergy storageThermal treatmentLayered double hydroxidesTetrabutylammonium hydroxideTransition metalDispersion (optics)Specific surface areaNanomaterials for catalytic reactionsSupercapacitor Materials and FabricationMesoporous Materials and Catalysis