SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W1971507856> ?p ?o ?g. }

Showing items 1 to 100 of ±134 with 100 items per page.

W1971507856 endingPage "24109" @default.
W1971507856 startingPage "24109" @default.
W1971507856 abstract "Well dispersed non-stabilized lanthanum oxyfluoride and fluoride nanoparticles were prepared in situ in thin silica films from rapid thermal decomposition of lanthanum tris-trifluoroacetate under nitrogen atmosphere. The thin silica films were obtained from sol–gel method and spin-coating. The spectroscopic properties of the non-stabilized nanoparticles as well the nanoparticles dispersed into thin silica films were studied in order to apply the system in future photonic applications such as erbium(III)-doped waveguide amplifiers. The non-stabilized nanoparticles were characterized by XRD, FT-IR, Transmission Electron Microscopy, Confocal Raman Spectroscopy and steady-state and time-resolved Luminescence Spectroscopy and these characterizations were used as a starting point to characterize the nanoparticles dispersed into the films. According to the temperature of the thermal treatments, the non-stabilized nanoparticles may present Eu(III)-doped LaOF in tetragonal and rhombohedral phases as well as a mixed phase of Eu(III)-doped LaF3 and LaOF. The tetragonal LaOF phase has C4v La(III) point symmetry and is more symmetric than the rhombohedral LaOF phase, where the La(III) ion has C3v symmetry, consequently tetragonal LaOF presented lower Ω2 values than rhombohedral LaOF. Theoretical calculations of Judd–Ofelt intensity parameters were also performed and were in good agreement with the experimental values. The samples containing the mixed phase of LaF3 and LaOF presented lower values of intensity parameters than pure LaOF phases. The samples containing the mixed phase presented higher values of emission lifetimes and quantum efficiencies. Confocal Raman spectroscopy of these samples complements the luminescence studies and indicates which LaOF phase is present in the mixed phase of LaF3 and LaOF. The rapid thermal decomposition of the precursor tris-trifluoroacetate on thin silica films results in well-dispersed 10 nm nanoparticles. The mixed phase of LaF3 and LaOF phases is also present in thin films. The luminescence of the Eu(III) and Er(III)/Yb(III)-doped LaF3/LaOF nanoparticles containing thin silica films presented broad emission bands suggesting that in the future the systems may be applied as erbium(III)-doped waveguide amplifiers." @default.
W1971507856 created "2016-06-24" @default.
W1971507856 creator A5009815377 @default.
W1971507856 creator A5020383720 @default.
W1971507856 creator A5022490627 @default.
W1971507856 creator A5030713084 @default.
W1971507856 creator A5046745866 @default.
W1971507856 creator A5066661860 @default.
W1971507856 date "2012-01-01" @default.
W1971507856 modified "2023-10-06" @default.
W1971507856 title "Non-stabilized europium-doped lanthanum oxyfluoride and fluoride nanoparticles well dispersed in thin silica films" @default.
W1971507856 cites W1492697054 @default.
W1971507856 cites W1964482291 @default.
W1971507856 cites W1965857732 @default.
W1971507856 cites W1966414942 @default.
W1971507856 cites W1969974079 @default.
W1971507856 cites W1972447629 @default.
W1971507856 cites W1981225918 @default.
W1971507856 cites W1985219868 @default.
W1971507856 cites W2000170390 @default.
W1971507856 cites W2000851545 @default.
W1971507856 cites W2001080148 @default.
W1971507856 cites W2004781889 @default.
W1971507856 cites W2004809545 @default.
W1971507856 cites W2009812955 @default.
W1971507856 cites W2010546725 @default.
W1971507856 cites W2022254572 @default.
W1971507856 cites W2037990155 @default.
W1971507856 cites W2042432005 @default.
W1971507856 cites W2043315352 @default.
W1971507856 cites W2050406982 @default.
W1971507856 cites W2052367397 @default.
W1971507856 cites W2059340298 @default.
W1971507856 cites W2062575186 @default.
W1971507856 cites W2063756804 @default.
W1971507856 cites W2065623942 @default.
W1971507856 cites W2067052714 @default.
W1971507856 cites W2070167277 @default.
W1971507856 cites W2080912427 @default.
W1971507856 cites W2087795348 @default.
W1971507856 cites W2090500413 @default.
W1971507856 cites W2091063438 @default.
W1971507856 cites W2092096899 @default.
W1971507856 cites W2096284799 @default.
W1971507856 cites W2111283124 @default.
W1971507856 cites W2127119100 @default.
W1971507856 cites W2147209118 @default.
W1971507856 cites W2155984180 @default.
W1971507856 cites W2160912925 @default.
W1971507856 cites W2165639316 @default.
W1971507856 cites W2168278770 @default.
W1971507856 cites W2321769353 @default.
W1971507856 cites W2329013745 @default.
W1971507856 cites W2952617564 @default.
W1971507856 doi "https://doi.org/10.1039/c2jm34901a" @default.
W1971507856 hasPublicationYear "2012" @default.
W1971507856 type Work @default.
W1971507856 sameAs 1971507856 @default.
W1971507856 citedByCount "23" @default.
W1971507856 countsByYear W19715078562013 @default.
W1971507856 countsByYear W19715078562014 @default.
W1971507856 countsByYear W19715078562015 @default.
W1971507856 countsByYear W19715078562016 @default.
W1971507856 countsByYear W19715078562017 @default.
W1971507856 countsByYear W19715078562018 @default.
W1971507856 countsByYear W19715078562019 @default.
W1971507856 countsByYear W19715078562020 @default.
W1971507856 countsByYear W19715078562021 @default.
W1971507856 countsByYear W19715078562022 @default.
W1971507856 countsByYear W19715078562023 @default.
W1971507856 crossrefType "journal-article" @default.
W1971507856 hasAuthorship W1971507856A5009815377 @default.
W1971507856 hasAuthorship W1971507856A5020383720 @default.
W1971507856 hasAuthorship W1971507856A5022490627 @default.
W1971507856 hasAuthorship W1971507856A5030713084 @default.
W1971507856 hasAuthorship W1971507856A5046745866 @default.
W1971507856 hasAuthorship W1971507856A5066661860 @default.
W1971507856 hasConcept C113196181 @default.
W1971507856 hasConcept C120665830 @default.
W1971507856 hasConcept C121332964 @default.
W1971507856 hasConcept C148869448 @default.
W1971507856 hasConcept C155672457 @default.
W1971507856 hasConcept C170751736 @default.
W1971507856 hasConcept C171250308 @default.
W1971507856 hasConcept C178790620 @default.
W1971507856 hasConcept C179104552 @default.
W1971507856 hasConcept C185592680 @default.
W1971507856 hasConcept C19067145 @default.
W1971507856 hasConcept C192562407 @default.
W1971507856 hasConcept C40003534 @default.
W1971507856 hasConcept C43617362 @default.
W1971507856 hasConcept C44280652 @default.
W1971507856 hasConcept C49040817 @default.
W1971507856 hasConcept C502696234 @default.
W1971507856 hasConcept C555894677 @default.
W1971507856 hasConceptScore W1971507856C113196181 @default.
W1971507856 hasConceptScore W1971507856C120665830 @default.
W1971507856 hasConceptScore W1971507856C121332964 @default.