Iwuoha, EmmanuelEkwere, Precious Idinma2022-05-162024-05-132024-05-132022https://hdl.handle.net/10566/14727Philosophiae Doctor - PhDWith the rapid rise in energy demand and ever-escalating environmental hazards, the need for transition from fossil fuel to renewable energy sources is of paramount importance, requiring better and efficient energy storage devices such as supercapacitors. Supercapacitors are energy storage devices with high power density and long cycle life, but relatively low energy density when compared to batteries. New and advanced electrode materials are required to improve the energy density requirements of next-generation supercapacitors. However, the search for new types of active materials to be used as supercapacitors' electrodes continues to be a tough challenge. Herein, ruthenium antimony oxide (RuSbO) and ruthenium antimony oxide graphene (RuSbO-G) were synthesized via the microwave-assisted method for the first time and tested as a possible electrode material for an asymmetric supercapacitor. Graphene oxide prepared by modified Hummer’s method was exfoliated at low temperature and used for the synthesis of RuSbO-G.enMicrowave synthesizedFossil fuelEnergyStorage devicesBatteriesMicrowave synthesized ruthenium antimony oxide-graphene nanocomposite materials for asymmetric supercapacitorsUniversity of the Western Cape