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W3126996656 endingPage "128879" @default.
W3126996656 startingPage "128879" @default.
W3126996656 abstract "In recent years, the design of high-performance and low-cost electrocatalysts for oxygen evolution reaction (OER) has captured great interest in the field of energy conversion and storage. Layered double hydroxide (LDH) with special configuration usually shows a highly electrochemical activity and become a desirable functional material for OER. In this work, carbon nanofibers embedded with Co nanoparticles have been prepared via an electrospinning and carbonization process, which can be served as a conductive support for the growth of NiFe LDH nanosheets through an electrodeposition route to produce a hierarchical 3D structure (denoted as 3D core-shell [email protected] LDH nanofibers). Owing to the high conductivity, large surface area and strong electron transfer between NiFe LDH nanosheets and Co-C nanofibers, the as-prepared 3D core-shell [email protected] LDH nanofibrous catalyst shows an excellent OER performance with an overpotential of only 249 mV at the current density of 10 mA cm−2 and a small Tafel slope of 57.9 mV dec−1, demonstrating an outstanding electrocatalytic activity for water oxidation. Furthermore, the 3D core-shell [email protected] LDH nanofibers also exhibit a superior long-term stability, with no obvious decrease in current density after nearly 190 h testing. Hence, the low-cost 3D core-shell [email protected] LDH nanofibrous electrocatalyst with an outstanding OER performance offers a novel chance for practical electrochemical water splitting application." @default.
W3126996656 created "2021-02-15" @default.
W3126996656 creator A5000801360 @default.
W3126996656 creator A5036429116 @default.
W3126996656 creator A5047902639 @default.
W3126996656 creator A5062582106 @default.
W3126996656 creator A5075456232 @default.
W3126996656 date "2021-07-01" @default.
W3126996656 modified "2023-10-12" @default.
W3126996656 title "Synergistic coupling of NiFe layered double hydroxides with Co-C nanofibers for high-efficiency oxygen evolution reaction" @default.
W3126996656 cites W1792658768 @default.
W3126996656 cites W1963597613 @default.
W3126996656 cites W1972651820 @default.
W3126996656 cites W1976204697 @default.
W3126996656 cites W2008817603 @default.
W3126996656 cites W2035048508 @default.
W3126996656 cites W2058267335 @default.
W3126996656 cites W2058916144 @default.
W3126996656 cites W2060033270 @default.
W3126996656 cites W2096425008 @default.
W3126996656 cites W2174909390 @default.
W3126996656 cites W2184018304 @default.
W3126996656 cites W2200167633 @default.
W3126996656 cites W2231571507 @default.
W3126996656 cites W2267504861 @default.
W3126996656 cites W2290745414 @default.
W3126996656 cites W2314220247 @default.
W3126996656 cites W2314817368 @default.
W3126996656 cites W2315535900 @default.
W3126996656 cites W2323275360 @default.
W3126996656 cites W2326895507 @default.
W3126996656 cites W2336181545 @default.
W3126996656 cites W2352612610 @default.
W3126996656 cites W2411441737 @default.
W3126996656 cites W2466194776 @default.
W3126996656 cites W2510136453 @default.
W3126996656 cites W2538845699 @default.
W3126996656 cites W2556945605 @default.
W3126996656 cites W2566301674 @default.
W3126996656 cites W2568897875 @default.
W3126996656 cites W2573377826 @default.
W3126996656 cites W2601225465 @default.
W3126996656 cites W2607550961 @default.
W3126996656 cites W2619229422 @default.
W3126996656 cites W2620099508 @default.
W3126996656 cites W2624383577 @default.
W3126996656 cites W2736092048 @default.
W3126996656 cites W2737030839 @default.
W3126996656 cites W2743722966 @default.
W3126996656 cites W2744278055 @default.
W3126996656 cites W2752003161 @default.
W3126996656 cites W2752912327 @default.
W3126996656 cites W2766801642 @default.
W3126996656 cites W2770218971 @default.
W3126996656 cites W2780634391 @default.
W3126996656 cites W2787797971 @default.
W3126996656 cites W2790407078 @default.
W3126996656 cites W2790704802 @default.
W3126996656 cites W2792551382 @default.
W3126996656 cites W2792875770 @default.
W3126996656 cites W2804106147 @default.
W3126996656 cites W2900639061 @default.
W3126996656 cites W2901182858 @default.
W3126996656 cites W2911186102 @default.
W3126996656 cites W2914660643 @default.
W3126996656 cites W2921126234 @default.
W3126996656 cites W2936817455 @default.
W3126996656 cites W2945411159 @default.
W3126996656 cites W2946768225 @default.
W3126996656 cites W2947397661 @default.
W3126996656 cites W2950922132 @default.
W3126996656 cites W2951029629 @default.
W3126996656 cites W2954923734 @default.
W3126996656 cites W2969756657 @default.
W3126996656 cites W2969934801 @default.
W3126996656 cites W2980718463 @default.
W3126996656 cites W2981095022 @default.
W3126996656 cites W2982132392 @default.
W3126996656 cites W2988936914 @default.
W3126996656 cites W2990746929 @default.
W3126996656 cites W2993536467 @default.
W3126996656 cites W2996859290 @default.
W3126996656 cites W3000715301 @default.
W3126996656 cites W3001055814 @default.
W3126996656 cites W3013542959 @default.
W3126996656 cites W3016878884 @default.
W3126996656 cites W3019317070 @default.
W3126996656 cites W3032942874 @default.
W3126996656 cites W3035711215 @default.
W3126996656 cites W3040804590 @default.
W3126996656 cites W3040865392 @default.
W3126996656 cites W3068958907 @default.
W3126996656 cites W3072826139 @default.
W3126996656 cites W3082780995 @default.
W3126996656 cites W3088011642 @default.
W3126996656 cites W3095865801 @default.
W3126996656 cites W3109109546 @default.
W3126996656 cites W3110537792 @default.