SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3204344582> ?p ?o ?g. }

Showing items 1 to 100 of ±141 with 100 items per page.

W3204344582 endingPage "132398" @default.
W3204344582 startingPage "132398" @default.
W3204344582 abstract "Antibiotic-resistant bacteria (ARB) pose a substantial threat to public health worldwide. Electrochemistry, as a low energy consumption and environmentally friendly technique, is ideal for inactivating ARB. This study explored the utility of electrochemical disinfection (ED) for inactivating ARB (Escherichia coli K-12 LE392 resistant to kanamycin, tetracycline, and ampicillin) and the regrowth potential of the treated ARB. The results revealed that 5.12-log ARB removal was achieved within 30 min of applying molybdenum carbide as the anode and cathode material under a voltage of 2.0 V. No ARB regrowth was observed in the cathode chamber after 60 min of incubation in unselective broth, demonstrating that the process in the cathode chamber was more effective for permanent inactivation of ARB. The mechanisms underlying the ARB inactivation were verified based on intercellular reactive oxygen species (ROS) measurement, membrane integrity detection, and genetic damage assessment. Higher ROS production and membrane permeability were observed in the cathode and anode groups (p < 0.001) compared to the control group (0 V). In addition, the DNA was more likely to be damaged during the ED process. Collectively, our results demonstrate that ED is a promising technology for disinfecting water to prevent the spread of ARB." @default.
W3204344582 created "2021-10-11" @default.
W3204344582 creator A5007322337 @default.
W3204344582 creator A5019843052 @default.
W3204344582 creator A5027766009 @default.
W3204344582 creator A5050269993 @default.
W3204344582 creator A5054314125 @default.
W3204344582 creator A5066610865 @default.
W3204344582 creator A5087658927 @default.
W3204344582 date "2022-01-01" @default.
W3204344582 modified "2023-09-24" @default.
W3204344582 title "Inactivation of antibiotic resistant bacterium Escherichia coli by electrochemical disinfection on molybdenum carbide electrode" @default.
W3204344582 cites W1497046280 @default.
W3204344582 cites W1981267913 @default.
W3204344582 cites W1981658458 @default.
W3204344582 cites W1985618996 @default.
W3204344582 cites W1992610499 @default.
W3204344582 cites W2000774559 @default.
W3204344582 cites W2003599116 @default.
W3204344582 cites W2019369653 @default.
W3204344582 cites W2027850769 @default.
W3204344582 cites W2036084565 @default.
W3204344582 cites W2038255331 @default.
W3204344582 cites W2043960703 @default.
W3204344582 cites W2055353980 @default.
W3204344582 cites W2057146519 @default.
W3204344582 cites W2059152797 @default.
W3204344582 cites W2059344015 @default.
W3204344582 cites W2064121493 @default.
W3204344582 cites W2075672910 @default.
W3204344582 cites W2082204121 @default.
W3204344582 cites W2092500999 @default.
W3204344582 cites W2095209660 @default.
W3204344582 cites W2104071282 @default.
W3204344582 cites W2108638835 @default.
W3204344582 cites W2128554689 @default.
W3204344582 cites W2145875183 @default.
W3204344582 cites W2150857292 @default.
W3204344582 cites W2155297184 @default.
W3204344582 cites W2290930852 @default.
W3204344582 cites W2405817716 @default.
W3204344582 cites W2511134248 @default.
W3204344582 cites W2533231373 @default.
W3204344582 cites W2535293141 @default.
W3204344582 cites W2549378582 @default.
W3204344582 cites W2605927295 @default.
W3204344582 cites W2615550624 @default.
W3204344582 cites W2754816434 @default.
W3204344582 cites W2755510617 @default.
W3204344582 cites W2779019546 @default.
W3204344582 cites W2779260350 @default.
W3204344582 cites W2800951373 @default.
W3204344582 cites W2802890618 @default.
W3204344582 cites W2806621297 @default.
W3204344582 cites W2809786839 @default.
W3204344582 cites W2884726817 @default.
W3204344582 cites W2895546391 @default.
W3204344582 cites W2897463067 @default.
W3204344582 cites W2902175272 @default.
W3204344582 cites W2903644089 @default.
W3204344582 cites W2903766627 @default.
W3204344582 cites W2904315193 @default.
W3204344582 cites W2906971143 @default.
W3204344582 cites W2914195965 @default.
W3204344582 cites W2917732700 @default.
W3204344582 cites W2969875782 @default.
W3204344582 cites W2974097735 @default.
W3204344582 cites W2980664229 @default.
W3204344582 cites W3020257856 @default.
W3204344582 cites W3021172875 @default.
W3204344582 cites W3035471430 @default.
W3204344582 cites W3042328838 @default.
W3204344582 cites W3046999548 @default.
W3204344582 cites W3089648070 @default.
W3204344582 cites W3134605598 @default.
W3204344582 cites W3162305135 @default.
W3204344582 doi "https://doi.org/10.1016/j.chemosphere.2021.132398" @default.
W3204344582 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/34597647" @default.
W3204344582 hasPublicationYear "2022" @default.
W3204344582 type Work @default.
W3204344582 sameAs 3204344582 @default.
W3204344582 citedByCount "9" @default.
W3204344582 countsByYear W32043445822022 @default.
W3204344582 countsByYear W32043445822023 @default.
W3204344582 crossrefType "journal-article" @default.
W3204344582 hasAuthorship W3204344582A5007322337 @default.
W3204344582 hasAuthorship W3204344582A5019843052 @default.
W3204344582 hasAuthorship W3204344582A5027766009 @default.
W3204344582 hasAuthorship W3204344582A5050269993 @default.
W3204344582 hasAuthorship W3204344582A5054314125 @default.
W3204344582 hasAuthorship W3204344582A5066610865 @default.
W3204344582 hasAuthorship W3204344582A5087658927 @default.
W3204344582 hasConcept C104317684 @default.
W3204344582 hasConcept C13965031 @default.
W3204344582 hasConcept C147789679 @default.
W3204344582 hasConcept C17525397 @default.
W3204344582 hasConcept C179104552 @default.
W3204344582 hasConcept C185592680 @default.