SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4211137729> ?p ?o ?g. }

Showing items 1 to 100 of ±144 with 100 items per page.

W4211137729 endingPage "115622" @default.
W4211137729 startingPage "115622" @default.
W4211137729 abstract "Intercalation materials are of considerable interest for capacitive deionization (CDI) due to the rigid open framework and energy storage ability. However, low conductivity and stability restrict its application. In this work, a redox-active intercalation cation electrode based on 3D network Ni-doping Cu-Prussian blue analogue NixCu1-x[Fe(CN)6]1-γ (NCP-2, γ < 1) interwoven with CNTs (NCP/CNT) is synthesized. Experiments illustrate that the dual strategy of Ni doping and the insert of CNTs reduce the vacancy and crystal water in the lattice, resulting in a maximum capacity of 373.6 F·g−1 and better cycling stability. NCP/CNT║active carbon (AC) cell delivers a high adsorption capacity of 41.25 mg·g−1 with less energy consumption of 0.1080 kWh·kg−1 in 500 ppm NaCl solution. The outstanding salt adsorption depends on the rapid Fe3+/Fe2+ and Cu2+/Cu+ redox cycle, shortened Na+ diffusion path and fast electron transport. The effect of Ni doping was explored by DFT calculations, which proved it enhanced the electron density of Fe atom, stabilized the skeleton structure, increased the conductivity of PBA materials and facilitated the insertion of Na+. After CNT inserting, abundant electronic conductive channels formed among PBA nanoparticles. Hence, this work provides a feasible strategy to construct highly efficient electrodes with less energy consumption for CDI applications." @default.
W4211137729 created "2022-02-13" @default.
W4211137729 creator A5015195350 @default.
W4211137729 creator A5020365705 @default.
W4211137729 creator A5048109388 @default.
W4211137729 creator A5072262162 @default.
W4211137729 creator A5075937587 @default.
W4211137729 creator A5091289006 @default.
W4211137729 date "2022-04-01" @default.
W4211137729 modified "2023-10-07" @default.
W4211137729 title "Ni-doping Cu-Prussian blue analogue/carbon nanotubes composite (Ni-CuPBA/CNTs) with 3D electronic channel-rich network structure for capacitive deionization" @default.
W4211137729 cites W1963527329 @default.
W4211137729 cites W1971942549 @default.
W4211137729 cites W1986720183 @default.
W4211137729 cites W2024294845 @default.
W4211137729 cites W2042215854 @default.
W4211137729 cites W2063624577 @default.
W4211137729 cites W2078353661 @default.
W4211137729 cites W2090792976 @default.
W4211137729 cites W2091898061 @default.
W4211137729 cites W2095738013 @default.
W4211137729 cites W2130900406 @default.
W4211137729 cites W2140397635 @default.
W4211137729 cites W2272308240 @default.
W4211137729 cites W2300514410 @default.
W4211137729 cites W2403293800 @default.
W4211137729 cites W2432060232 @default.
W4211137729 cites W2531182067 @default.
W4211137729 cites W2537135045 @default.
W4211137729 cites W2549843691 @default.
W4211137729 cites W2554817056 @default.
W4211137729 cites W2606034392 @default.
W4211137729 cites W2608195986 @default.
W4211137729 cites W2734733042 @default.
W4211137729 cites W2746285683 @default.
W4211137729 cites W2765431835 @default.
W4211137729 cites W2767101995 @default.
W4211137729 cites W2806856519 @default.
W4211137729 cites W2843961643 @default.
W4211137729 cites W2898585458 @default.
W4211137729 cites W2901529594 @default.
W4211137729 cites W2902182216 @default.
W4211137729 cites W2911326470 @default.
W4211137729 cites W2914136884 @default.
W4211137729 cites W2915403665 @default.
W4211137729 cites W2915574732 @default.
W4211137729 cites W2942757279 @default.
W4211137729 cites W2946525051 @default.
W4211137729 cites W2963043968 @default.
W4211137729 cites W2963928829 @default.
W4211137729 cites W2975923053 @default.
W4211137729 cites W3004493883 @default.
W4211137729 cites W3006811001 @default.
W4211137729 cites W3010283641 @default.
W4211137729 cites W3014127511 @default.
W4211137729 cites W3014436586 @default.
W4211137729 cites W3016350125 @default.
W4211137729 cites W3017210340 @default.
W4211137729 cites W3034976380 @default.
W4211137729 cites W3036401476 @default.
W4211137729 cites W3039416334 @default.
W4211137729 cites W3043890118 @default.
W4211137729 cites W3048025577 @default.
W4211137729 cites W3080207265 @default.
W4211137729 cites W3080768988 @default.
W4211137729 cites W3081855487 @default.
W4211137729 cites W3085405290 @default.
W4211137729 cites W3098025825 @default.
W4211137729 cites W3105069189 @default.
W4211137729 cites W3112314458 @default.
W4211137729 cites W3117115532 @default.
W4211137729 cites W3127583683 @default.
W4211137729 cites W3132225270 @default.
W4211137729 cites W3139281793 @default.
W4211137729 cites W3157328296 @default.
W4211137729 doi "https://doi.org/10.1016/j.desal.2022.115622" @default.
W4211137729 hasPublicationYear "2022" @default.
W4211137729 type Work @default.
W4211137729 citedByCount "19" @default.
W4211137729 countsByYear W42111377292022 @default.
W4211137729 countsByYear W42111377292023 @default.
W4211137729 crossrefType "journal-article" @default.
W4211137729 hasAuthorship W4211137729A5015195350 @default.
W4211137729 hasAuthorship W4211137729A5020365705 @default.
W4211137729 hasAuthorship W4211137729A5048109388 @default.
W4211137729 hasAuthorship W4211137729A5072262162 @default.
W4211137729 hasAuthorship W4211137729A5075937587 @default.
W4211137729 hasAuthorship W4211137729A5091289006 @default.
W4211137729 hasConcept C127413603 @default.
W4211137729 hasConcept C137824038 @default.
W4211137729 hasConcept C147789679 @default.
W4211137729 hasConcept C150394285 @default.
W4211137729 hasConcept C171250308 @default.
W4211137729 hasConcept C17525397 @default.
W4211137729 hasConcept C179104552 @default.
W4211137729 hasConcept C185592680 @default.
W4211137729 hasConcept C191897082 @default.
W4211137729 hasConcept C192562407 @default.