Shaibani, Mahdokht Synthesis and application of carbon-based materials for high performance energy storage devices Lithium-Sulfur battery; a very promising battery technology to outperform today’s low energy density Lithium-ion battery is hindered by electrode solubility issues which results in short cycle life. In this dissertation, it is demonstrated that rethinking of the assembly protocols and introducing multi-functional components to the battery configuration can bring additional functionalities to the device which solves the inherent drawbacks of the Lithium-Sulfur system in a rather unconventional fashion. These studies showed the potential of carbon-based films in boosting the Energy density and life time of the Lithium-Sulfur battery. Battery;Energy Storage;Graphene;Supercapacitor;Carbon;Mechanical Engineering;Energy Generation, Conversion and Storage Engineering 2017-05-02
    https://bridges.monash.edu/articles/thesis/Synthesis_and_application_of_carbon-based_materials_for_high_performance_energy_storage_devices/4909520
10.4225/03/5907e09c30e80