Abstract
The present work is centered on the use of a novel approach for the processing and development for modern advanced materials for electrochemical energy systems including LIBs, SIBs, fuel cells and solar cells. The present work is centered on using innovative synthesis methods to fabricate molybdenum/carbon composites nanofibers for use in rechargeable LIBs and SIBs. The loadings of embedded molybdenum oxides in the carbon-nanofiber matrix are explored in detail to promote the optimum electrode performance. Derived centrifugally spun composite nanofibers combined with a novel heat treatment have led to morphology modifications and further capacity enhancements of the anode reaching 1004 mAh g-1 after 100 cycles at 100 mA g-1. Furthermore, the molybdenum-based nanomaterials were combined with titanium and carbonaceous composites to prepare hybrid nanostructured anode material with good capacity retention and improved electrochemical performance.
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