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W4285402941 endingPage "154253" @default.
W4285402941 startingPage "154253" @default.
W4285402941 abstract "Layered double hydroxides (LDHs) are highly active materials for the oxygen evolution reaction (OER); however, they have low activity for the oxygen reduction reaction (ORR). The surface modification by the defects engineering is a great strategy to boost their bifunctionality for rechargeable Zn-air batteries (ZABs). In this work, NiFe LDHs were synthesized varying the composition (Ni:Fe compositions of 1:1, 2:1 and 3:1), and BET surface areas of 262.3, 165.9 and 79.5 m2 g−1 were found. Despite the differences in BET surface areas, the NiFe LDH 3:1 presented higher activity for the OER, and thus, oxygen vacancies (Ov)–type surface defects were introduced to this LDH. This surface engineering decreased the oxygen atomic percentage from 75.25 to 57.4 %, and as result, the resistance to charge transfer drastically decreased due to electronic modifications, which can be rationalized in terms of the theoretical density of states obtained by density functional theory for a model system including oxygen vacancies. The combination between defected NiFe LDH with N-doped carbon nanotubes allowed to obtain the same current density for ORR than benchmarked Pt/C with a potential difference of 95 mV, and better activity for OER (1.46 V @ 10 mA cm−2). In the ZAB, a cell voltage of 1.44 V was achieved with a power density close to 36 mW cm−2, being this power similar to that of Pt/C." @default.
W4285402941 created "2022-07-14" @default.
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W4285402941 creator A5047332811 @default.
W4285402941 creator A5061829985 @default.
W4285402941 date "2022-11-01" @default.
W4285402941 modified "2023-10-18" @default.
W4285402941 title "Defected NiFe layered double hydroxides on N-doped carbon nanotubes as efficient bifunctional electrocatalyst for rechargeable zinc–air batteries" @default.
W4285402941 cites W1817278254 @default.
W4285402941 cites W1964330289 @default.
W4285402941 cites W1967240457 @default.
W4285402941 cites W1986731219 @default.
W4285402941 cites W2002721385 @default.
W4285402941 cites W2015871216 @default.
W4285402941 cites W2017128337 @default.
W4285402941 cites W2028056984 @default.
W4285402941 cites W2035220165 @default.
W4285402941 cites W2036113194 @default.
W4285402941 cites W2038630698 @default.
W4285402941 cites W2055640329 @default.
W4285402941 cites W2059175519 @default.
W4285402941 cites W2070675371 @default.
W4285402941 cites W2096425008 @default.
W4285402941 cites W2100450304 @default.
W4285402941 cites W2108720946 @default.
W4285402941 cites W2108953022 @default.
W4285402941 cites W2119153777 @default.
W4285402941 cites W2141704677 @default.
W4285402941 cites W2166951273 @default.
W4285402941 cites W2237323834 @default.
W4285402941 cites W2341002069 @default.
W4285402941 cites W2424323687 @default.
W4285402941 cites W2481949062 @default.
W4285402941 cites W2510136453 @default.
W4285402941 cites W2536804780 @default.
W4285402941 cites W2568897875 @default.
W4285402941 cites W2580767461 @default.
W4285402941 cites W2591816155 @default.
W4285402941 cites W2604830510 @default.
W4285402941 cites W2605569472 @default.
W4285402941 cites W2735834243 @default.
W4285402941 cites W2761305322 @default.
W4285402941 cites W2767196667 @default.
W4285402941 cites W2788395772 @default.
W4285402941 cites W2790761393 @default.
W4285402941 cites W2791948558 @default.
W4285402941 cites W2803132371 @default.
W4285402941 cites W2803833520 @default.
W4285402941 cites W2810768546 @default.
W4285402941 cites W2891819057 @default.
W4285402941 cites W2897816309 @default.
W4285402941 cites W2909906586 @default.
W4285402941 cites W2911501322 @default.
W4285402941 cites W2912750544 @default.
W4285402941 cites W2939852702 @default.
W4285402941 cites W2943932090 @default.
W4285402941 cites W2945808975 @default.
W4285402941 cites W2954297387 @default.
W4285402941 cites W2964819032 @default.
W4285402941 cites W2969959161 @default.
W4285402941 cites W2989605857 @default.
W4285402941 cites W2994940560 @default.
W4285402941 cites W3009078037 @default.
W4285402941 cites W3009633937 @default.
W4285402941 cites W3016749548 @default.
W4285402941 cites W3021154722 @default.
W4285402941 cites W3026189860 @default.
W4285402941 cites W3032942874 @default.
W4285402941 cites W3048414455 @default.
W4285402941 cites W3109998611 @default.
W4285402941 cites W3118741475 @default.
W4285402941 cites W3119541983 @default.
W4285402941 cites W3170651996 @default.
W4285402941 cites W4225725896 @default.
W4285402941 cites W4238797651 @default.
W4285402941 cites W3212560946 @default.
W4285402941 doi "https://doi.org/10.1016/j.apsusc.2022.154253" @default.
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