SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4296285943> ?p ?o ?g. }

Showing items 1 to 100 of ±157 with 100 items per page.

W4296285943 endingPage "130023" @default.
W4296285943 startingPage "130023" @default.
W4296285943 abstract "With the development of our society, the desire to recover valuable metal resources from metal-containing wastewaters or natural water bodies is becoming increasingly stronger nowadays. To overcome the limitations of single techniques, coupling technologies with synergistic effects are attracting increasing attention regarding metal resource recovery from water with particular interest in electrochemical coupling technologies in view of the advantages of electrochemical methods. This state-of-the-art review comprehensively presented the mechanisms and performance of electrochemical coupling systems for metal recovery from water. To give a clear overview of current research trends, technologies coupled with electrochemical processes can be categorized into six main types: electrochemical techniques, membrane modules, adsorption/extraction techniques, sonication technologies, energy supply techniques and others. The electrochemical coupling system has shown synergistic advantages (e.g., improving metal recovery efficiency, reducing energy consumption) over single technologies. We then discuss the remaining challenges, present corresponding solutions, and put forward future directions for current electrochemical coupled systems towards metal recovery. This review is conducive to broadening the potential applications of electrochemical coupling processes for metal recovery and sustainable water treatment." @default.
W4296285943 created "2022-09-19" @default.
W4296285943 creator A5007097881 @default.
W4296285943 creator A5021941367 @default.
W4296285943 creator A5067321676 @default.
W4296285943 creator A5068050138 @default.
W4296285943 date "2023-01-01" @default.
W4296285943 modified "2023-10-05" @default.
W4296285943 title "Recent advances and prospects in electrochemical coupling technologies for metal recovery from water" @default.
W4296285943 cites W1966038748 @default.
W4296285943 cites W1988582554 @default.
W4296285943 cites W2001879797 @default.
W4296285943 cites W2005484939 @default.
W4296285943 cites W2007006098 @default.
W4296285943 cites W2022051679 @default.
W4296285943 cites W2037609384 @default.
W4296285943 cites W2039979955 @default.
W4296285943 cites W2043458735 @default.
W4296285943 cites W2052122316 @default.
W4296285943 cites W2052791001 @default.
W4296285943 cites W2071109905 @default.
W4296285943 cites W2089744154 @default.
W4296285943 cites W2093963512 @default.
W4296285943 cites W2093987553 @default.
W4296285943 cites W2108065940 @default.
W4296285943 cites W2111768800 @default.
W4296285943 cites W2204053103 @default.
W4296285943 cites W2331132567 @default.
W4296285943 cites W2471760349 @default.
W4296285943 cites W2474106719 @default.
W4296285943 cites W2499311047 @default.
W4296285943 cites W2504524516 @default.
W4296285943 cites W2509010670 @default.
W4296285943 cites W2639656676 @default.
W4296285943 cites W2735623132 @default.
W4296285943 cites W2761585118 @default.
W4296285943 cites W2790391771 @default.
W4296285943 cites W2793171714 @default.
W4296285943 cites W2793789541 @default.
W4296285943 cites W2802167610 @default.
W4296285943 cites W2805123167 @default.
W4296285943 cites W2809176458 @default.
W4296285943 cites W2810673337 @default.
W4296285943 cites W2901451191 @default.
W4296285943 cites W2901911920 @default.
W4296285943 cites W2903023948 @default.
W4296285943 cites W2908924989 @default.
W4296285943 cites W2911851244 @default.
W4296285943 cites W2943371477 @default.
W4296285943 cites W2954458729 @default.
W4296285943 cites W2989891607 @default.
W4296285943 cites W2991250707 @default.
W4296285943 cites W2995063393 @default.
W4296285943 cites W2996468317 @default.
W4296285943 cites W3002187565 @default.
W4296285943 cites W3002799414 @default.
W4296285943 cites W3005867787 @default.
W4296285943 cites W3011324788 @default.
W4296285943 cites W3031470136 @default.
W4296285943 cites W3033585940 @default.
W4296285943 cites W3034374223 @default.
W4296285943 cites W3044076731 @default.
W4296285943 cites W3082685057 @default.
W4296285943 cites W3083410945 @default.
W4296285943 cites W3084907763 @default.
W4296285943 cites W3103599253 @default.
W4296285943 cites W3106805745 @default.
W4296285943 cites W3107792260 @default.
W4296285943 cites W3109965900 @default.
W4296285943 cites W3111995177 @default.
W4296285943 cites W3112155617 @default.
W4296285943 cites W3112455963 @default.
W4296285943 cites W3119059661 @default.
W4296285943 cites W3121648664 @default.
W4296285943 cites W3123506117 @default.
W4296285943 cites W3130908408 @default.
W4296285943 cites W3132119598 @default.
W4296285943 cites W3133673229 @default.
W4296285943 cites W3134365858 @default.
W4296285943 cites W3135965912 @default.
W4296285943 cites W3162704076 @default.
W4296285943 cites W3166357452 @default.
W4296285943 cites W3174419634 @default.
W4296285943 cites W3175761525 @default.
W4296285943 cites W3193521681 @default.
W4296285943 cites W3194433986 @default.
W4296285943 cites W3203767033 @default.
W4296285943 cites W3208956533 @default.
W4296285943 cites W3213762194 @default.
W4296285943 cites W4220726789 @default.
W4296285943 cites W4281679139 @default.
W4296285943 doi "https://doi.org/10.1016/j.jhazmat.2022.130023" @default.
W4296285943 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/36155294" @default.
W4296285943 hasPublicationYear "2023" @default.
W4296285943 type Work @default.
W4296285943 citedByCount "28" @default.
W4296285943 countsByYear W42962859432022 @default.
W4296285943 countsByYear W42962859432023 @default.