03458nam 2200661z- 450 991055753460332120210501(CKB)5400000000044231(oapen)https://directory.doabooks.org/handle/20.500.12854/68881(oapen)doab68881(EXLCZ)99540000000004423120202105d2020 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierElectrochemical CapacitorsBasel, SwitzerlandMDPI - Multidisciplinary Digital Publishing Institute20201 online resource (92 p.)3-03936-722-6 3-03936-723-4 Electrochemical capacitors are being increasingly introduced in energy storage devices, for example, in automobiles, renewable energies, and mobile terminals. This book includes five high-quality papers that can lead to technological developments in electrochemical capacitors. The first paper describes the effect of the milling degree of activated carbon particles used in the electrodes on the supercapacitive performance of an electric double-layer capacitor. The second, fourth, and fifth papers describe novel electrode materials that have the potential to enhance the performance of next-generation electrochemical capacitors. Nickel molybdate/reduced graphene oxide nanocomposite, copper-decorated carbon nanotubes, and nickel hydroxide/activated carbon composite are tested, and are shown to be promising candidates for next-generation electrochemical capacitors. The third paper reports the hybrid utilization of electrochemical capacitors with other types of energy devices (photovoltaics, fuel cells, and batteries) in a DC microgrid, which ensures wider applications of electrochemical capacitors in the near future. The knowledge and experience in this book are beneficial in manufacturing and utilizing electrochemical capacitors. Cutting-edge knowledge related to novel electrode nano-materials is also helpful to design next-generation electrochemical capacitors. This book delivers useful information to specialists involved in energy storage technologies.History of engineering and technologybicsscactivated carbonball millingCNTcoin-cell prototypecompositecopperDC microgridelectric double-layer capacitorelectrochemical performanceelectrodeenergy densityenergy efficiencyenergy managementenergy storagehybrid capacitor prototype case studyhybrid power systemKOH aqueous electrolyte energy storage devicenickel-cobalt hydroxideNiMoO4 NPsNiMoO4/3D-rGO nanocompositeporous structurepower densityspecific capacitancestarchsupercapacitorHistory of engineering and technologyKumagai Seijiedt1311959Tashima DaisukeedtKumagai SeijiothTashima DaisukeothBOOK9910557534603321Electrochemical Capacitors3030621UNINA