SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2008372266> ?p ?o ?g. }

Showing items 1 to 100 of ±148 with 100 items per page.

W2008372266 endingPage "029506" @default.
W2008372266 startingPage "029506" @default.
W2008372266 abstract "One of the most desired aims in plasma medicine is to inactivate prokaryotic cells and leave eukaryotic cells unharmed or even stimulate proliferation to promote wound healing. The method of choice is to precisely control the plasma component composition. Here the authors investigate the inactivation of bacteria (Escherichia coli) by a plasma jet treatment. The reactive species composition created by the plasma in liquids is tuned by the use of a shielding gas device to achieve a reactive nitrogen species dominated condition or a reactive oxygen species dominated condition. A strong correlation between composition of the reactive components and the inactivation of the bacteria is observed. The authors compare the results to earlier investigations on eukaryotic cells and show that it is possible to find a plasma composition where bacterial inactivation is strongest and adverse effects on eukaryotic cells are minimized." @default.
W2008372266 created "2016-06-24" @default.
W2008372266 creator A5005893029 @default.
W2008372266 creator A5008944857 @default.
W2008372266 creator A5015387068 @default.
W2008372266 creator A5021793747 @default.
W2008372266 creator A5047726956 @default.
W2008372266 creator A5057751138 @default.
W2008372266 creator A5069167037 @default.
W2008372266 creator A5082536092 @default.
W2008372266 date "2015-06-01" @default.
W2008372266 modified "2023-09-28" @default.
W2008372266 title "Plasma jet's shielding gas impact on bacterial inactivation" @default.
W2008372266 cites W1590198750 @default.
W2008372266 cites W1821918060 @default.
W2008372266 cites W1966693490 @default.
W2008372266 cites W1972844219 @default.
W2008372266 cites W1973715233 @default.
W2008372266 cites W1988075219 @default.
W2008372266 cites W1997370556 @default.
W2008372266 cites W1997892657 @default.
W2008372266 cites W2009761182 @default.
W2008372266 cites W2010781374 @default.
W2008372266 cites W2011637161 @default.
W2008372266 cites W2017103564 @default.
W2008372266 cites W2017774693 @default.
W2008372266 cites W2020259213 @default.
W2008372266 cites W2023129332 @default.
W2008372266 cites W2024343957 @default.
W2008372266 cites W2028746240 @default.
W2008372266 cites W2029275900 @default.
W2008372266 cites W2034514240 @default.
W2008372266 cites W2036523875 @default.
W2008372266 cites W2042710397 @default.
W2008372266 cites W2043241061 @default.
W2008372266 cites W2044170736 @default.
W2008372266 cites W2050653641 @default.
W2008372266 cites W2051802937 @default.
W2008372266 cites W2054435408 @default.
W2008372266 cites W2055388057 @default.
W2008372266 cites W2055491583 @default.
W2008372266 cites W2058137293 @default.
W2008372266 cites W2061280940 @default.
W2008372266 cites W2062990272 @default.
W2008372266 cites W2063843145 @default.
W2008372266 cites W2067529228 @default.
W2008372266 cites W2074612789 @default.
W2008372266 cites W2086092367 @default.
W2008372266 cites W2090316954 @default.
W2008372266 cites W2092807797 @default.
W2008372266 cites W2096258583 @default.
W2008372266 cites W2102583473 @default.
W2008372266 cites W2105488687 @default.
W2008372266 cites W2120620942 @default.
W2008372266 cites W2122386753 @default.
W2008372266 cites W2126585173 @default.
W2008372266 cites W2138285190 @default.
W2008372266 cites W2158702031 @default.
W2008372266 cites W2167347711 @default.
W2008372266 cites W2168951668 @default.
W2008372266 cites W2327112576 @default.
W2008372266 cites W2616191625 @default.
W2008372266 doi "https://doi.org/10.1116/1.4916533" @default.
W2008372266 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/25832438" @default.
W2008372266 hasPublicationYear "2015" @default.
W2008372266 type Work @default.
W2008372266 sameAs 2008372266 @default.
W2008372266 citedByCount "64" @default.
W2008372266 countsByYear W20083722662015 @default.
W2008372266 countsByYear W20083722662016 @default.
W2008372266 countsByYear W20083722662017 @default.
W2008372266 countsByYear W20083722662018 @default.
W2008372266 countsByYear W20083722662019 @default.
W2008372266 countsByYear W20083722662020 @default.
W2008372266 countsByYear W20083722662021 @default.
W2008372266 countsByYear W20083722662022 @default.
W2008372266 countsByYear W20083722662023 @default.
W2008372266 crossrefType "journal-article" @default.
W2008372266 hasAuthorship W2008372266A5005893029 @default.
W2008372266 hasAuthorship W2008372266A5008944857 @default.
W2008372266 hasAuthorship W2008372266A5015387068 @default.
W2008372266 hasAuthorship W2008372266A5021793747 @default.
W2008372266 hasAuthorship W2008372266A5047726956 @default.
W2008372266 hasAuthorship W2008372266A5057751138 @default.
W2008372266 hasAuthorship W2008372266A5069167037 @default.
W2008372266 hasAuthorship W2008372266A5082536092 @default.
W2008372266 hasConcept C104317684 @default.
W2008372266 hasConcept C121332964 @default.
W2008372266 hasConcept C12554922 @default.
W2008372266 hasConcept C138885662 @default.
W2008372266 hasConcept C159985019 @default.
W2008372266 hasConcept C185592680 @default.
W2008372266 hasConcept C192562407 @default.
W2008372266 hasConcept C2265751 @default.
W2008372266 hasConcept C2779525624 @default.
W2008372266 hasConcept C40231798 @default.
W2008372266 hasConcept C41895202 @default.
W2008372266 hasConcept C48349386 @default.