Metal oxide-mediated differential chalcogen morphogenesis for Li-chalcogen battery application

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Metal oxide-mediated differential chalcogen morphogenesis for Li-chalcogen battery application
Title:
Metal oxide-mediated differential chalcogen morphogenesis for Li-chalcogen battery application
Journal Title:
Nano Energy
Keywords:
Publication Date:
02 February 2021
Citation:
AbdelHamid, A. A., Cheong, J. L., & Ying, J. Y. (2021). Metal oxide-mediated differential chalcogen morphogenesis for Li-chalcogen battery application. Nano Energy, 84, 105842. https://doi.org/10.1016/j.nanoen.2021.105842
Abstract:
Chalcogens, especially sulfur and selenium, have wide-ranging applications, from pharmaceuticals to catalysis and energy storage. Size and morphology control are critical factors advancing the applications of sulfur and selenium. In this study, a new methodology for chalcogen nanostructure morphology control is established. The concept is based on harnessing the differential interaction of metal oxides with polysulfides and polyselenides to control the chalcogen nanostructure. Metal oxide substrates of varying compositions induce the formation of a wide range of multidimensional chalcogen morphologies, including nanoparticles and hollow nanospheres (0D), nanowires and nanocables (1D), uniform nanocoating (2D), and hollow-shell networks and multipods (3D). The chalcogen nanostructures are applied as Li-chalcogen battery cathodes. Battery testing shows direct structure-performance correlation, which favors smaller chalcogen size and shapes that allow closer contact with the substrate. Metal oxide-mediated chalcogen morphology control is a general strategy that can be applied to other fields for the advancement of chalcogen-based applications.
License type:
Publisher Copyright
Funding Info:
This research is supported by core funding from: NanoBio Lab
Grant Reference no. : NA
Description:
ISSN:
2211-2855
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