SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4308405427> ?p ?o ?g. }

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

W4308405427 endingPage "10132" @default.
W4308405427 startingPage "10123" @default.
W4308405427 abstract "The rapid development of radioluminescent nanomaterials has left uncertainties in how their properties compare to bulk materials or other luminescent nanoparticles. The effects of material density and effective atomic number, activator concentration, co-doped sensitization, and core/shell architectures were examined, with a focus on LiLuF4 nanoparticles doped with Eu3+. Varying material density and effective atomic number were found to affect the exciton recombination efficiency and subsequent excitation of activator ions. Given the indirect excitation processes in radioluminescence, we observed that the dependence on dopant concentration is highly specific to the choice of the activator ion and host composition. Strategies to enhance the radioluminescence efficiency were explored through co-doping with a sensitizer ion or core/shell architectures. Demonstrated herein, co-doping is a viable strategy to improve radioluminescence; however, the effect is highly dependent on the sensitizer–activator ion combination, as well as the population efficiency of the sensitizer. Core/shell structures were effective in improving the efficiency of individual activator ions in the lattice; however, the enhancement may not compensate for the addition of nonluminescent shell material. The results provide insight on the development of radioluminescent nanoparticles and their relationship to the properties that govern other luminescence processes." @default.
W4308405427 created "2022-11-11" @default.
W4308405427 creator A5008935768 @default.
W4308405427 creator A5033988645 @default.
W4308405427 creator A5048218741 @default.
W4308405427 creator A5086301406 @default.
W4308405427 date "2022-11-07" @default.
W4308405427 modified "2023-10-03" @default.
W4308405427 title "Investigating the Fundamental Material Properties That Influence the Radioluminescence of Lanthanide-Doped Nanoparticles" @default.
W4308405427 cites W1267488830 @default.
W4308405427 cites W1555328673 @default.
W4308405427 cites W1594748476 @default.
W4308405427 cites W1969305236 @default.
W4308405427 cites W1970641032 @default.
W4308405427 cites W1972257266 @default.
W4308405427 cites W1983782323 @default.
W4308405427 cites W2004477047 @default.
W4308405427 cites W2014060489 @default.
W4308405427 cites W2014659448 @default.
W4308405427 cites W2021755363 @default.
W4308405427 cites W2052449260 @default.
W4308405427 cites W2061273521 @default.
W4308405427 cites W2073805742 @default.
W4308405427 cites W2088876365 @default.
W4308405427 cites W2092805418 @default.
W4308405427 cites W2092904110 @default.
W4308405427 cites W2114715953 @default.
W4308405427 cites W2151171489 @default.
W4308405427 cites W2157077892 @default.
W4308405427 cites W2167590372 @default.
W4308405427 cites W2326411711 @default.
W4308405427 cites W2332423385 @default.
W4308405427 cites W2332462726 @default.
W4308405427 cites W2413640758 @default.
W4308405427 cites W2528705874 @default.
W4308405427 cites W2613860272 @default.
W4308405427 cites W2765295483 @default.
W4308405427 cites W2782769829 @default.
W4308405427 cites W2793491185 @default.
W4308405427 cites W2795956824 @default.
W4308405427 cites W2808327815 @default.
W4308405427 cites W2911760028 @default.
W4308405427 cites W2921722046 @default.
W4308405427 cites W2940605442 @default.
W4308405427 cites W2962818637 @default.
W4308405427 cites W2965256323 @default.
W4308405427 cites W2980571967 @default.
W4308405427 cites W3088419982 @default.
W4308405427 cites W3089492206 @default.
W4308405427 cites W3091617950 @default.
W4308405427 cites W3092819009 @default.
W4308405427 cites W3101475690 @default.
W4308405427 cites W3124262302 @default.
W4308405427 cites W3156658192 @default.
W4308405427 cites W3169945027 @default.
W4308405427 cites W3173212922 @default.
W4308405427 cites W3194039975 @default.
W4308405427 cites W4200304914 @default.
W4308405427 cites W4210973479 @default.
W4308405427 cites W4297851885 @default.
W4308405427 doi "https://doi.org/10.1021/acs.chemmater.2c02830" @default.
W4308405427 hasPublicationYear "2022" @default.
W4308405427 type Work @default.
W4308405427 citedByCount "1" @default.
W4308405427 countsByYear W43084054272023 @default.
W4308405427 crossrefType "journal-article" @default.
W4308405427 hasAuthorship W4308405427A5008935768 @default.
W4308405427 hasAuthorship W4308405427A5033988645 @default.
W4308405427 hasAuthorship W4308405427A5048218741 @default.
W4308405427 hasAuthorship W4308405427A5086301406 @default.
W4308405427 hasConcept C104317684 @default.
W4308405427 hasConcept C120665830 @default.
W4308405427 hasConcept C121332964 @default.
W4308405427 hasConcept C138631740 @default.
W4308405427 hasConcept C145148216 @default.
W4308405427 hasConcept C148869448 @default.
W4308405427 hasConcept C155672457 @default.
W4308405427 hasConcept C159467904 @default.
W4308405427 hasConcept C161694136 @default.
W4308405427 hasConcept C171250308 @default.
W4308405427 hasConcept C178790620 @default.
W4308405427 hasConcept C185592680 @default.
W4308405427 hasConcept C191952053 @default.
W4308405427 hasConcept C192562407 @default.
W4308405427 hasConcept C201770740 @default.
W4308405427 hasConcept C49040817 @default.
W4308405427 hasConcept C55493867 @default.
W4308405427 hasConcept C57863236 @default.
W4308405427 hasConcept C8474884 @default.
W4308405427 hasConcept C88045685 @default.
W4308405427 hasConcept C94915269 @default.
W4308405427 hasConceptScore W4308405427C104317684 @default.
W4308405427 hasConceptScore W4308405427C120665830 @default.
W4308405427 hasConceptScore W4308405427C121332964 @default.
W4308405427 hasConceptScore W4308405427C138631740 @default.
W4308405427 hasConceptScore W4308405427C145148216 @default.
W4308405427 hasConceptScore W4308405427C148869448 @default.
W4308405427 hasConceptScore W4308405427C155672457 @default.