SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2735792083> ?p ?o ?g. }

Showing items 1 to 100 of ±162 with 100 items per page.

W2735792083 endingPage "169" @default.
W2735792083 startingPage "163" @default.
W2735792083 abstract "Surface-selective chemical modification of anatase TiO2 nanocrystals is performed in the post-discharge region of N2 microwave plasma and the chemical bonding states of surface nitrogen species are carefully evaluated using X-ray photoemission spectroscopy (XPS). It is found that the surface treatments in the afterglows induce the formation of stable nitrogen species at or near the surface of TiO2. Interestingly, the detailed bonding structure varies strongly depending on the afterglow condition. In pure N2 afterglows, various N species with a direct TiN bond are formed on the surface, while the use of N2-O2 mixtures induces the formation of additional oxidized species of NO3− on the surface. This is attributed to the high concentrations of O or NO in the afterglows of N2-O2 plasmas. The incorporation of substitutional N species in the subsurface is also achieved after a prolonged exposure in the early afterglow with a high density of N2+ species. Our results show that the exposure condition can be controlled for a selective chemical modification of TiO2 surface for the control of surface properties in various applications." @default.
W2735792083 created "2017-07-21" @default.
W2735792083 creator A5007112043 @default.
W2735792083 creator A5021991316 @default.
W2735792083 creator A5034565742 @default.
W2735792083 creator A5051518181 @default.
W2735792083 creator A5057909085 @default.
W2735792083 creator A5077651308 @default.
W2735792083 date "2018-02-01" @default.
W2735792083 modified "2023-10-01" @default.
W2735792083 title "A study on selective surface nitridation of TiO 2 nanocrystals in the afterglows of N 2 and N 2 -O 2 microwave plasmas" @default.
W2735792083 cites W1158363501 @default.
W2735792083 cites W1187235851 @default.
W2735792083 cites W1509395506 @default.
W2735792083 cites W1600434178 @default.
W2735792083 cites W1896289247 @default.
W2735792083 cites W1963886372 @default.
W2735792083 cites W1964034895 @default.
W2735792083 cites W1966067322 @default.
W2735792083 cites W1966456288 @default.
W2735792083 cites W1967226352 @default.
W2735792083 cites W1972585927 @default.
W2735792083 cites W1973176211 @default.
W2735792083 cites W1978168551 @default.
W2735792083 cites W1980728657 @default.
W2735792083 cites W1985915013 @default.
W2735792083 cites W1987412006 @default.
W2735792083 cites W1988588783 @default.
W2735792083 cites W1991316042 @default.
W2735792083 cites W1992698531 @default.
W2735792083 cites W1994778892 @default.
W2735792083 cites W1995473744 @default.
W2735792083 cites W1999792487 @default.
W2735792083 cites W2003120420 @default.
W2735792083 cites W2004742416 @default.
W2735792083 cites W2012514553 @default.
W2735792083 cites W2014947190 @default.
W2735792083 cites W2023284935 @default.
W2735792083 cites W2026771631 @default.
W2735792083 cites W2031167627 @default.
W2735792083 cites W2035479485 @default.
W2735792083 cites W2039010009 @default.
W2735792083 cites W2039313058 @default.
W2735792083 cites W2043001072 @default.
W2735792083 cites W2043759231 @default.
W2735792083 cites W2044741036 @default.
W2735792083 cites W2046125210 @default.
W2735792083 cites W2048823205 @default.
W2735792083 cites W2063184555 @default.
W2735792083 cites W2074356747 @default.
W2735792083 cites W2075932020 @default.
W2735792083 cites W2078580772 @default.
W2735792083 cites W2078866458 @default.
W2735792083 cites W2083411975 @default.
W2735792083 cites W2084479056 @default.
W2735792083 cites W2086598498 @default.
W2735792083 cites W2088952940 @default.
W2735792083 cites W2089198551 @default.
W2735792083 cites W2091846710 @default.
W2735792083 cites W2094802313 @default.
W2735792083 cites W2144243829 @default.
W2735792083 cites W2169714463 @default.
W2735792083 cites W2277106770 @default.
W2735792083 cites W2319439037 @default.
W2735792083 cites W2320575434 @default.
W2735792083 cites W2324576880 @default.
W2735792083 cites W2324735843 @default.
W2735792083 cites W2335045561 @default.
W2735792083 cites W2442363372 @default.
W2735792083 cites W2606035607 @default.
W2735792083 cites W2011888403 @default.
W2735792083 doi "https://doi.org/10.1016/j.apsusc.2017.07.113" @default.
W2735792083 hasPublicationYear "2018" @default.
W2735792083 type Work @default.
W2735792083 sameAs 2735792083 @default.
W2735792083 citedByCount "5" @default.
W2735792083 countsByYear W27357920832019 @default.
W2735792083 countsByYear W27357920832021 @default.
W2735792083 countsByYear W27357920832022 @default.
W2735792083 crossrefType "journal-article" @default.
W2735792083 hasAuthorship W2735792083A5007112043 @default.
W2735792083 hasAuthorship W2735792083A5021991316 @default.
W2735792083 hasAuthorship W2735792083A5034565742 @default.
W2735792083 hasAuthorship W2735792083A5051518181 @default.
W2735792083 hasAuthorship W2735792083A5057909085 @default.
W2735792083 hasAuthorship W2735792083A5077651308 @default.
W2735792083 hasConcept C113196181 @default.
W2735792083 hasConcept C115537861 @default.
W2735792083 hasConcept C121332964 @default.
W2735792083 hasConcept C127413603 @default.
W2735792083 hasConcept C1276947 @default.
W2735792083 hasConcept C147789679 @default.
W2735792083 hasConcept C159467904 @default.
W2735792083 hasConcept C161790260 @default.
W2735792083 hasConcept C171250308 @default.
W2735792083 hasConcept C175708663 @default.
W2735792083 hasConcept C175854130 @default.
W2735792083 hasConcept C17599544 @default.