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W4323268182 startingPage "156926" @default.
W4323268182 abstract "Prussian blue analogues (PBAs), as the representative of Faradaic materials, has drawn extensive attention in capacitive deionization (CDI) for unique redox activity, open framework structure, and low-cost synthesis. However, the serious aggregation, low conductivity, and easy structural collapse of PBAs nanoparticles limit the practical application in CDI. Herein, the ternary composite Ni,[email protected]/PPy is flexibly constructed by integrating the collective advantages of Ni,Co-PBA, MXene, and PPy. In this configuration, MXene not only provides high conductivity but also acts as the good substrate for the in-situ homogeneous growth of Ni,Co-PBA nanoparticles. Furthermore, Ni,Co-PBA nanoparticles could effectively inhibit the self-stacking of MXene and facilitate fast ion intercalation. And the doping of Co in Ni,Co-PBA promotes the redox process by the pseudocapacitive contribution. Meanwhile, PPy contributes to accelerating ions transport rate and promoting the structural stability of MXene and Ni,Co-PBA. Consequently, the hybrid CDI cell AC//Ni,[email protected]/PPy delivers prominent desalination performance with the high salt adsorption capacity (38.7 mg g−1), rapid salt adsorption rate (10 mg g−1 min−1), low energy consumption (0.283 kWh kg−1-NaCl), and outstanding cyclic stability. Most importantly, the Ni,[email protected]/PPy electrode can reserve favorable structural integrity by the significant shielding effect of PPy to prevent Ni,Co-PBA from collapse and MXene from being oxidized." @default.
W4323268182 created "2023-03-06" @default.
W4323268182 creator A5015195350 @default.
W4323268182 creator A5033632697 @default.
W4323268182 creator A5043509827 @default.
W4323268182 creator A5078949281 @default.
W4323268182 date "2023-06-01" @default.
W4323268182 modified "2023-10-18" @default.
W4323268182 title "Flexible structural construction of the ternary composite Ni,Co-Prussian blue analogue@MXene/polypyrrole for high-capacity capacitive deionization" @default.
W4323268182 cites W1906455749 @default.
W4323268182 cites W1982546148 @default.
W4323268182 cites W1996303771 @default.
W4323268182 cites W2000879141 @default.
W4323268182 cites W2090792976 @default.
W4323268182 cites W2093214835 @default.
W4323268182 cites W2134207760 @default.
W4323268182 cites W2195971153 @default.
W4323268182 cites W2546971341 @default.
W4323268182 cites W2596337391 @default.
W4323268182 cites W2781188073 @default.
W4323268182 cites W2791725648 @default.
W4323268182 cites W2793205898 @default.
W4323268182 cites W2843961643 @default.
W4323268182 cites W2898585458 @default.
W4323268182 cites W2901529594 @default.
W4323268182 cites W2905909056 @default.
W4323268182 cites W2915661219 @default.
W4323268182 cites W2921691021 @default.
W4323268182 cites W2923250064 @default.
W4323268182 cites W2940449456 @default.
W4323268182 cites W2953900788 @default.
W4323268182 cites W2964225426 @default.
W4323268182 cites W2973393431 @default.
W4323268182 cites W2975923053 @default.
W4323268182 cites W2994637145 @default.
W4323268182 cites W3003822107 @default.
W4323268182 cites W3009142706 @default.
W4323268182 cites W3010317513 @default.
W4323268182 cites W3019089410 @default.
W4323268182 cites W3034972735 @default.
W4323268182 cites W3034976380 @default.
W4323268182 cites W3041864034 @default.
W4323268182 cites W3080768988 @default.
W4323268182 cites W3081010490 @default.
W4323268182 cites W3081587491 @default.
W4323268182 cites W3081855487 @default.
W4323268182 cites W3082299717 @default.
W4323268182 cites W3084460821 @default.
W4323268182 cites W3093197935 @default.
W4323268182 cites W3111693568 @default.
W4323268182 cites W3119032851 @default.
W4323268182 cites W3129466028 @default.
W4323268182 cites W3138035422 @default.
W4323268182 cites W3157273305 @default.
W4323268182 cites W3161028507 @default.
W4323268182 cites W3167794169 @default.
W4323268182 cites W3174390851 @default.
W4323268182 cites W3194236331 @default.
W4323268182 cites W3195181606 @default.
W4323268182 cites W3197052816 @default.
W4323268182 cites W3197951309 @default.
W4323268182 cites W3203436869 @default.
W4323268182 cites W3210604724 @default.
W4323268182 cites W3212722740 @default.
W4323268182 cites W4200162121 @default.
W4323268182 cites W4200453462 @default.
W4323268182 cites W4205871378 @default.
W4323268182 cites W4206048986 @default.
W4323268182 cites W4211137729 @default.
W4323268182 cites W4220949189 @default.
W4323268182 cites W4224257826 @default.
W4323268182 cites W4281492602 @default.
W4323268182 cites W4281660223 @default.
W4323268182 cites W4283258794 @default.
W4323268182 cites W4295078870 @default.
W4323268182 cites W4297499102 @default.
W4323268182 cites W4309244153 @default.
W4323268182 cites W4310493741 @default.
W4323268182 doi "https://doi.org/10.1016/j.apsusc.2023.156926" @default.
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