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AuthorZagho, Moustafa M.
AuthorIbrahim, Yasseen S.
AuthorElzatahry, Ahmed A.
Available date2022-05-22T09:12:23Z
Publication Date2021
Publication NameRSC Nanoscience and Nanotechnology
ResourceScopus
Identifierhttp://dx.doi.org/10.1039/9781839164606-00262
URIhttp://hdl.handle.net/10576/31354
AbstractThe increasing demand for energy and the reducing supply of conventional energy storage devices have inspired interest to design environmentally-friendly, abundant, and cheap materials for energy storage applications. Graphitic carbon nitride (gCN)-based hybrids have attracted research efforts due to their attractive properties, structures, and performance. In this respect, this chapter addresses the different hybrid gCN-based devices for energy storage applications. The supercapacitance efficiency of gCNs can be improved by incorporating carbon-based materials, metal oxides/hydroxides, or metal sulfides, which increase the surface area and active sites and facilitate the faradaic reaction. The pulverization and aggregation of electrodes and relatively low electrical conductivity demonstrate the major challenges for Li+ storage applications using gCNs. This chapter highlights the recent advances in the rational design of gCN-based devices for energy production and storage applications. This includes fabrication of gCN-hybrids with carbon materials, metal oxides, and metal sulfides for Li-ion batteries (LIBs), Li–S batteries (LSBs), and supercapacitors. The current challenges and future perspectives on gCN-based energy production devices are also discussed.
Languageen
PublisherRoyal Society of Chemistry
SubjectEnergy storage
Graphitic Carbon Nitride
Lithium compounds
Lithium sulfur batteries
Lithium-ion batteries
Metals
Sulfur compounds
Surface chemistry
Carbon based materials
Carbon material
Electrical conductivity
Energy productions
Energy storage applications
Faradaic reactions
Future perspectives
Research efforts
Storage (materials)
TitleCHAPTER 7: Hybrid Graphitic Carbon Nitride (gCN)-based Devices for Energy Storage and Production
TypeBook chapter
Pagination262-294
Issue Number51
Volume Number2021-January
dc.accessType Abstract Only


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