SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3119167844> ?p ?o ?g. }

Showing items 1 to 100 of ±152 with 100 items per page.

W3119167844 endingPage "85" @default.
W3119167844 startingPage "85" @default.
W3119167844 abstract "The presence of pharmaceutical products in the water cycle may cause harmful effects such as morphological, metabolic and sex alterations in aquatic organisms and the selection/development of organisms resistant to antimicrobial agents. The compounds’ stability and persistent character hinder their elimination by conventional physico-chemical and biological treatments and thus, the development of new water purification technologies has drawn great attention from academic and industrial researchers. Recently, the electro-Fenton process has been demonstrated to be a viable alternative for the removal of these hazardous, recalcitrant compounds. This process occurs under the action of a suitable catalyst, with the majority of current scientific research focused on heterogeneous systems. A significant area of research centres working on the development of an appropriate catalyst able to overcome the operating limitations associated with the homogeneous process is concerned with the short service life and difficulty in the separation/recovery of the catalyst from polluted water. This review highlights a present trend in the use of different materials as electro-Fenton catalysts for pharmaceutical compound removal from aquatic environments. The main challenges facing these technologies revolve around the enhancement of performance, stability for long-term use, life-cycle analysis considerations and cost-effectiveness. Although treatment efficiency has improved significantly, ongoing research efforts need to deliver economic viability at a larger scale due to the high operating costs, primarily related to energy consumption." @default.
W3119167844 created "2021-01-18" @default.
W3119167844 creator A5013160415 @default.
W3119167844 creator A5060375999 @default.
W3119167844 creator A5071479977 @default.
W3119167844 creator A5090861687 @default.
W3119167844 date "2021-01-09" @default.
W3119167844 modified "2023-10-05" @default.
W3119167844 title "Heterogeneous Electro-Fenton as “Green” Technology for Pharmaceutical Removal: A Review" @default.
W3119167844 cites W1968316487 @default.
W3119167844 cites W1971174033 @default.
W3119167844 cites W1976291432 @default.
W3119167844 cites W1981344608 @default.
W3119167844 cites W1983243293 @default.
W3119167844 cites W1985526527 @default.
W3119167844 cites W1986783112 @default.
W3119167844 cites W1988498108 @default.
W3119167844 cites W1991855748 @default.
W3119167844 cites W1995349527 @default.
W3119167844 cites W1996074206 @default.
W3119167844 cites W2023251671 @default.
W3119167844 cites W2028150363 @default.
W3119167844 cites W2031430185 @default.
W3119167844 cites W2033749205 @default.
W3119167844 cites W2038242977 @default.
W3119167844 cites W2051511045 @default.
W3119167844 cites W2064289707 @default.
W3119167844 cites W2076912174 @default.
W3119167844 cites W2084741276 @default.
W3119167844 cites W2084848986 @default.
W3119167844 cites W2127011617 @default.
W3119167844 cites W2145937475 @default.
W3119167844 cites W224875976 @default.
W3119167844 cites W2279785115 @default.
W3119167844 cites W2280537313 @default.
W3119167844 cites W2299635857 @default.
W3119167844 cites W2301635874 @default.
W3119167844 cites W2316608860 @default.
W3119167844 cites W2328518805 @default.
W3119167844 cites W2402244372 @default.
W3119167844 cites W2411364152 @default.
W3119167844 cites W2492325724 @default.
W3119167844 cites W2519879681 @default.
W3119167844 cites W2569199021 @default.
W3119167844 cites W2570617356 @default.
W3119167844 cites W2594355789 @default.
W3119167844 cites W2612348117 @default.
W3119167844 cites W2613273783 @default.
W3119167844 cites W2614381060 @default.
W3119167844 cites W2761411938 @default.
W3119167844 cites W2761645029 @default.
W3119167844 cites W2763305054 @default.
W3119167844 cites W2793226524 @default.
W3119167844 cites W2795731920 @default.
W3119167844 cites W2800032317 @default.
W3119167844 cites W2802615836 @default.
W3119167844 cites W2803016275 @default.
W3119167844 cites W2804530959 @default.
W3119167844 cites W2809952120 @default.
W3119167844 cites W2811355748 @default.
W3119167844 cites W2851191705 @default.
W3119167844 cites W2884557154 @default.
W3119167844 cites W2885307056 @default.
W3119167844 cites W2887359599 @default.
W3119167844 cites W2896949560 @default.
W3119167844 cites W2911162092 @default.
W3119167844 cites W2917725997 @default.
W3119167844 cites W2920906599 @default.
W3119167844 cites W2928830786 @default.
W3119167844 cites W2944034133 @default.
W3119167844 cites W2946055735 @default.
W3119167844 cites W2949294069 @default.
W3119167844 cites W2956597112 @default.
W3119167844 cites W2978832206 @default.
W3119167844 cites W2996821340 @default.
W3119167844 cites W2999486567 @default.
W3119167844 cites W3005949787 @default.
W3119167844 cites W3010144897 @default.
W3119167844 cites W3012361777 @default.
W3119167844 cites W3019179869 @default.
W3119167844 cites W3025812866 @default.
W3119167844 cites W3029022488 @default.
W3119167844 cites W3033028235 @default.
W3119167844 cites W3034528823 @default.
W3119167844 cites W3041596846 @default.
W3119167844 cites W3043291518 @default.
W3119167844 cites W3044104544 @default.
W3119167844 cites W910403977 @default.
W3119167844 cites W966624069 @default.
W3119167844 doi "https://doi.org/10.3390/catal11010085" @default.
W3119167844 hasPublicationYear "2021" @default.
W3119167844 type Work @default.
W3119167844 sameAs 3119167844 @default.
W3119167844 citedByCount "35" @default.
W3119167844 countsByYear W31191678442021 @default.
W3119167844 countsByYear W31191678442022 @default.
W3119167844 countsByYear W31191678442023 @default.
W3119167844 crossrefType "journal-article" @default.