SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4313289320> ?p ?o ?g. }

Showing items 1 to 100 of ±154 with 100 items per page.

W4313289320 endingPage "374" @default.
W4313289320 startingPage "365" @default.
W4313289320 abstract "The efficient removal of heavy metals from wastewater and contaminated soil is vital for the environmental remediation and sustainable recycling of metals. Here, we demonstrate that ultrathin MgFe-LDH nanosheets (LDH-S) offer excellent mineralization of Cu2+ ions in aqueous solutions and soils (ultrahigh uptake capacity of 662 mg/g). The LDH-S can purify real electroplating wastewater (Cu2+ concentration >5000 mg/L) and trace heavy-metal-containing wastewater (∼10 mg/L) to drinkable levels (below 1 ppb). In the process of Cu2+ removal, MgFe-LDH is transformed into Cu(Mg)Fe-LDH through surface adsorption and isomorphous substitution. The Cu(Mg)Fe-LDH product could be used directly to remove azo dyes and phosphate anions by adsorption or be processed into metallic copper via a leaching–electroreduction process. The release of Mg2+ ions by LDH-S during Cu2+ removal was shown to promote crop growth by acting as magnesium fertilizer, even in acidic soils. This work simultaneously addresses several bottlenecks in heavy metal sequestration, including removal capacity, stability, reusability, and metal recovery." @default.
W4313289320 created "2023-01-06" @default.
W4313289320 creator A5009495953 @default.
W4313289320 creator A5019565719 @default.
W4313289320 creator A5033474784 @default.
W4313289320 creator A5034112803 @default.
W4313289320 creator A5035045458 @default.
W4313289320 creator A5036673376 @default.
W4313289320 creator A5040229652 @default.
W4313289320 creator A5044592235 @default.
W4313289320 creator A5053702651 @default.
W4313289320 creator A5063892110 @default.
W4313289320 creator A5066410903 @default.
W4313289320 creator A5067200024 @default.
W4313289320 date "2022-12-29" @default.
W4313289320 modified "2023-10-14" @default.
W4313289320 title "Superstable Mineralization of Heavy Metals Using Low-Cost Layered Double Hydroxide Nanosheets: Toward Water Remediation and Soil Fertility Enhancement" @default.
W4313289320 cites W2065479105 @default.
W4313289320 cites W2074209371 @default.
W4313289320 cites W2113536011 @default.
W4313289320 cites W2219382025 @default.
W4313289320 cites W2261822255 @default.
W4313289320 cites W2285594253 @default.
W4313289320 cites W2332934910 @default.
W4313289320 cites W2460565181 @default.
W4313289320 cites W2589016571 @default.
W4313289320 cites W2606974008 @default.
W4313289320 cites W2742344561 @default.
W4313289320 cites W2792976223 @default.
W4313289320 cites W2801780305 @default.
W4313289320 cites W2899403632 @default.
W4313289320 cites W2901903189 @default.
W4313289320 cites W2948321729 @default.
W4313289320 cites W2952073783 @default.
W4313289320 cites W2954048186 @default.
W4313289320 cites W2967612741 @default.
W4313289320 cites W2968312157 @default.
W4313289320 cites W2970619231 @default.
W4313289320 cites W2972972759 @default.
W4313289320 cites W2974584539 @default.
W4313289320 cites W2976654869 @default.
W4313289320 cites W2980822379 @default.
W4313289320 cites W2982739918 @default.
W4313289320 cites W2983122471 @default.
W4313289320 cites W2987596234 @default.
W4313289320 cites W2991775039 @default.
W4313289320 cites W3001511020 @default.
W4313289320 cites W3008370850 @default.
W4313289320 cites W3014077801 @default.
W4313289320 cites W3025544741 @default.
W4313289320 cites W3045623854 @default.
W4313289320 cites W3047709578 @default.
W4313289320 cites W3048041703 @default.
W4313289320 cites W3091187189 @default.
W4313289320 cites W3112308753 @default.
W4313289320 cites W3138197495 @default.
W4313289320 cites W3154158495 @default.
W4313289320 cites W3155688162 @default.
W4313289320 cites W3159191494 @default.
W4313289320 cites W3196835609 @default.
W4313289320 cites W3200848558 @default.
W4313289320 cites W3206571680 @default.
W4313289320 cites W4205347082 @default.
W4313289320 cites W4210283021 @default.
W4313289320 cites W4290975957 @default.
W4313289320 cites W4295211019 @default.
W4313289320 doi "https://doi.org/10.1021/acs.iecr.2c03082" @default.
W4313289320 hasPublicationYear "2022" @default.
W4313289320 type Work @default.
W4313289320 citedByCount "6" @default.
W4313289320 countsByYear W43132893202023 @default.
W4313289320 crossrefType "journal-article" @default.
W4313289320 hasAuthorship W4313289320A5009495953 @default.
W4313289320 hasAuthorship W4313289320A5019565719 @default.
W4313289320 hasAuthorship W4313289320A5033474784 @default.
W4313289320 hasAuthorship W4313289320A5034112803 @default.
W4313289320 hasAuthorship W4313289320A5035045458 @default.
W4313289320 hasAuthorship W4313289320A5036673376 @default.
W4313289320 hasAuthorship W4313289320A5040229652 @default.
W4313289320 hasAuthorship W4313289320A5044592235 @default.
W4313289320 hasAuthorship W4313289320A5053702651 @default.
W4313289320 hasAuthorship W4313289320A5063892110 @default.
W4313289320 hasAuthorship W4313289320A5066410903 @default.
W4313289320 hasAuthorship W4313289320A5067200024 @default.
W4313289320 hasConcept C107872376 @default.
W4313289320 hasConcept C111696902 @default.
W4313289320 hasConcept C112570922 @default.
W4313289320 hasConcept C147789679 @default.
W4313289320 hasConcept C150394285 @default.
W4313289320 hasConcept C159390177 @default.
W4313289320 hasConcept C159750122 @default.
W4313289320 hasConcept C178790620 @default.
W4313289320 hasConcept C179104552 @default.
W4313289320 hasConcept C184651966 @default.
W4313289320 hasConcept C185592680 @default.
W4313289320 hasConcept C18903297 @default.
W4313289320 hasConcept C199164860 @default.
W4313289320 hasConcept C2775896084 @default.