SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4295220450> ?p ?o ?g. }

Showing items 1 to 100 of ±163 with 100 items per page.

W4295220450 endingPage "116090" @default.
W4295220450 startingPage "116090" @default.
W4295220450 abstract "Fluorine pollution has been recognized as one of the major problems of global concern. Metal-organic frameworks (MOFs), as potential fluoride adsorbents, possess unique chemical reactivity and broad functionalities. However, their application is restricted by instability in fluoride or acid/base solution and difficult separation. Here, lotus flower-like Al/N-doped porous carbon composite was prepared by a simple pyrolysis method using Al-based MOF as a precursor and used for capacitive deionization (CDI) defluorination. Through pyrolysis, MOF-derived carbon not only obtained a larger specific surface area and N-rich structure, but also possessed multiple F− capture sites. These carbon substrate enabled the metal centers to be uniformly dispersed and contributed to enhanced electrical conductivity and chemical stability of electrode material. Through the CDI defluorination system, F− migrate rapidly with the aid of the electric field and was captured under the synergistic effect of metal sites and carbon substrate. According to the Langmuir isotherm, the maximum F− removal capacity was 76.28 mg g−1 at 1.2 V, and the adsorption kinetics followed pseudo-second-order model. The electroenhanced adsorption method exhibits high adsorption capacity and selectivity for F− due to combining the advantages of adsorbent adsorption and electrosorption, which already exceeds the capacities of most electrode material." @default.
W4295220450 created "2022-09-12" @default.
W4295220450 creator A5005215463 @default.
W4295220450 creator A5029360035 @default.
W4295220450 creator A5040566861 @default.
W4295220450 creator A5056163904 @default.
W4295220450 creator A5070830689 @default.
W4295220450 creator A5073837776 @default.
W4295220450 creator A5076699095 @default.
W4295220450 creator A5085221201 @default.
W4295220450 date "2022-12-01" @default.
W4295220450 modified "2023-10-12" @default.
W4295220450 title "From MOF to Al/N-doped porous carbon: Creating multiple capture sites for efficient capacitive deionization defluorination" @default.
W4295220450 cites W1996945965 @default.
W4295220450 cites W2007843086 @default.
W4295220450 cites W2052361757 @default.
W4295220450 cites W2074868396 @default.
W4295220450 cites W2338639184 @default.
W4295220450 cites W2345633645 @default.
W4295220450 cites W2461144453 @default.
W4295220450 cites W246285187 @default.
W4295220450 cites W2510129411 @default.
W4295220450 cites W2510262331 @default.
W4295220450 cites W2510546422 @default.
W4295220450 cites W2512295523 @default.
W4295220450 cites W2606962120 @default.
W4295220450 cites W2626223629 @default.
W4295220450 cites W2735391544 @default.
W4295220450 cites W2759131605 @default.
W4295220450 cites W2765895762 @default.
W4295220450 cites W2783857128 @default.
W4295220450 cites W2791768228 @default.
W4295220450 cites W2792872997 @default.
W4295220450 cites W2884767302 @default.
W4295220450 cites W2884950205 @default.
W4295220450 cites W2890287503 @default.
W4295220450 cites W2902557917 @default.
W4295220450 cites W2904726837 @default.
W4295220450 cites W2907816422 @default.
W4295220450 cites W2915403665 @default.
W4295220450 cites W2940714813 @default.
W4295220450 cites W2951542985 @default.
W4295220450 cites W2952146161 @default.
W4295220450 cites W2965715608 @default.
W4295220450 cites W2967935657 @default.
W4295220450 cites W2976981454 @default.
W4295220450 cites W2989447618 @default.
W4295220450 cites W2996330485 @default.
W4295220450 cites W2999279513 @default.
W4295220450 cites W3004897373 @default.
W4295220450 cites W3006255929 @default.
W4295220450 cites W3012502434 @default.
W4295220450 cites W3042654707 @default.
W4295220450 cites W3043153745 @default.
W4295220450 cites W3048514793 @default.
W4295220450 cites W3082404047 @default.
W4295220450 cites W3091684329 @default.
W4295220450 cites W3093850185 @default.
W4295220450 cites W3106774824 @default.
W4295220450 cites W3107154560 @default.
W4295220450 cites W3118790623 @default.
W4295220450 cites W3124046960 @default.
W4295220450 cites W3130838481 @default.
W4295220450 cites W3132225270 @default.
W4295220450 cites W3134459753 @default.
W4295220450 cites W3163253447 @default.
W4295220450 cites W3169211102 @default.
W4295220450 cites W3190185032 @default.
W4295220450 cites W3195320259 @default.
W4295220450 cites W3196511013 @default.
W4295220450 cites W3197754314 @default.
W4295220450 cites W3198203382 @default.
W4295220450 cites W3198330277 @default.
W4295220450 cites W3200659306 @default.
W4295220450 cites W3202281257 @default.
W4295220450 cites W3202462125 @default.
W4295220450 cites W3203972908 @default.
W4295220450 cites W3211137022 @default.
W4295220450 cites W4200401081 @default.
W4295220450 cites W4210604354 @default.
W4295220450 cites W4211129984 @default.
W4295220450 cites W4214927834 @default.
W4295220450 cites W992602043 @default.
W4295220450 doi "https://doi.org/10.1016/j.desal.2022.116090" @default.
W4295220450 hasPublicationYear "2022" @default.
W4295220450 type Work @default.
W4295220450 citedByCount "7" @default.
W4295220450 countsByYear W42952204502022 @default.
W4295220450 countsByYear W42952204502023 @default.
W4295220450 crossrefType "journal-article" @default.
W4295220450 hasAuthorship W4295220450A5005215463 @default.
W4295220450 hasAuthorship W4295220450A5029360035 @default.
W4295220450 hasAuthorship W4295220450A5040566861 @default.
W4295220450 hasAuthorship W4295220450A5056163904 @default.
W4295220450 hasAuthorship W4295220450A5070830689 @default.
W4295220450 hasAuthorship W4295220450A5073837776 @default.
W4295220450 hasAuthorship W4295220450A5076699095 @default.
W4295220450 hasAuthorship W4295220450A5085221201 @default.