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W2790964669 abstract "Abstract Nano‐sized α‐MnO 2 nanorods doped with Co or Ru were directly synthesized using a continuous hydrothermal synthesis process (production rate 10 g h −1 ) and investigated as relatively inexpensive (due to the small Ru content) bifunctional catalysts for both the Oxygen Reduction Reaction (ORR) and Oxygen Evolution Reaction (OER). The materials were extensively characterized using a range of analytical methods; these including Extended X‐Ray Absorption Fine Structure (EXAFS) spectroscopy measurements, which was accompanied by density functional theory studies, in order to elucidate the role of dopants in α‐MnO 2 structure. Electrochemical ORR and OER investigations of the as‐prepared doped α‐MnO 2 nanomaterials were compared to more expensive Pt/C or RuO 2 catalysts. The doped manganese oxide nanomaterials were used as bifunctional catalysts in the positive electrode of zinc air batteries (with oversized zinc metal negative electrode and limited density of discharge window) and displayed excellent performance (the overpotential was 0.77 and 0.68 V for α‐MnO 2 modified with 7.6 at% Co and 9.4 at% Ru, respectively). Overall, as a result of doping, this study achieved improved bifunctional catalytic activities of metal oxide catalysts, which was comparable to more expensive alternatives." @default.
W2790964669 created "2018-03-29" @default.
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W2790964669 date "2018-03-05" @default.
W2790964669 modified "2023-10-17" @default.
W2790964669 title "Transition‐Metal‐Doped α‐MnO<sub>2</sub> Nanorods as Bifunctional Catalysts for Efficient Oxygen Reduction and Evolution Reactions" @default.
W2790964669 cites W1187455807 @default.
W2790964669 cites W1835937939 @default.
W2790964669 cites W1910978064 @default.
W2790964669 cites W1935802679 @default.
W2790964669 cites W1964083672 @default.
W2790964669 cites W1965938594 @default.
W2790964669 cites W1968058670 @default.
W2790964669 cites W1980445044 @default.
W2790964669 cites W1982677496 @default.
W2790964669 cites W1984278079 @default.
W2790964669 cites W1984625256 @default.
W2790964669 cites W2000883834 @default.
W2790964669 cites W2001402909 @default.
W2790964669 cites W2003044813 @default.
W2790964669 cites W2016195634 @default.
W2790964669 cites W2018359639 @default.
W2790964669 cites W2020007931 @default.
W2790964669 cites W2021162485 @default.
W2790964669 cites W2022299938 @default.
W2790964669 cites W2024204609 @default.
W2790964669 cites W2038280379 @default.
W2790964669 cites W2039714242 @default.
W2790964669 cites W2053033688 @default.
W2790964669 cites W2053303098 @default.
W2790964669 cites W2057751711 @default.
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W2790964669 cites W2075150197 @default.
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W2790964669 cites W2085783450 @default.
W2790964669 cites W2094487970 @default.
W2790964669 cites W2107027659 @default.
W2790964669 cites W2113161575 @default.
W2790964669 cites W2133406747 @default.
W2790964669 cites W2137525974 @default.
W2790964669 cites W2140473208 @default.
W2790964669 cites W2146278879 @default.
W2790964669 cites W2150422630 @default.
W2790964669 cites W2164824831 @default.
W2790964669 cites W2173840457 @default.
W2790964669 cites W2189316240 @default.
W2790964669 cites W2190851743 @default.
W2790964669 cites W2220764566 @default.
W2790964669 cites W2234087925 @default.
W2790964669 cites W2258149905 @default.
W2790964669 cites W2266195264 @default.
W2790964669 cites W2270897815 @default.
W2790964669 cites W2283450158 @default.
W2790964669 cites W2288963499 @default.
W2790964669 cites W2323642592 @default.
W2790964669 cites W2324822674 @default.
W2790964669 cites W2327484947 @default.
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W2790964669 cites W2410802639 @default.
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W2790964669 doi "https://doi.org/10.1002/slct.201702514" @default.
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