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W4294576362 endingPage "112887" @default.
W4294576362 startingPage "112887" @default.
W4294576362 abstract "Over the past few decades, researchers have worked with copper oxide nanostructures (CONs) to explore their applications in renewable energy conversion and generation. However, the major limitations of this class of nanomaterials are poor electrical conductivity, undesirable optical properties, and low electrochemical capacity, which eventually reduce their catalytic performance in various electrochemical and photocatalytic devices used for energy conversion and generation. To overcome these limitations, an efficient strategy was proposed in which CONs are doped with metals. The metal-doped CONs (M-CONs) have exhibited excellent performances as photocatalysts and electrocatalysts in energy conversion and generation, which are comprehensively reviewed in this article. In particular, this review critically discusses M-CONs-based catalysts in terms of their synthesis methods, growth mechanisms, metal-doping mediated changes in key properties, and applications in energy conversion and generation. In addition, major challenges and future prospects for M-CONs in energy-related applications are also discussed. This systematic review is intended to serve as a guide for the further development of M-CONs-based catalysts, as well as other metal-doped transition metal oxides, as an emerging class of nanomaterials for renewable energy-related applications. • Physical properties of CuO nanostructures (CONs) can be improved by heterometal doping. • Metal-doping can improve electrical conductivity and electrochemical capacity of CONs. • M-CONs are superior to CONs for energy conversion in photoelectrochemical cells. • M-CONs showed better performances in electrocatalysis for energy generation." @default.
W4294576362 created "2022-09-05" @default.
W4294576362 creator A5002859247 @default.
W4294576362 creator A5005929259 @default.
W4294576362 creator A5007441504 @default.
W4294576362 creator A5030169034 @default.
W4294576362 creator A5053079398 @default.
W4294576362 creator A5057099677 @default.
W4294576362 creator A5072942807 @default.
W4294576362 creator A5077787580 @default.
W4294576362 creator A5079356849 @default.
W4294576362 date "2022-10-01" @default.
W4294576362 modified "2023-09-26" @default.
W4294576362 title "Recent insights into heterometal-doped copper oxide nanostructure-based catalysts for renewable energy conversion and generation" @default.
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