81
TITLE: Cryogenic Luminescent Ratiometric Thermometers Based on Tetragonal Na[LnSiO4]·xNaOH (Ln = Gd, Tb, Eu; x ≈ 0.2)  Full Text
AUTHORS: Ananias, D; Mongis, CM; Carlos, LD; Rocha, J;
PUBLISHED: 2020, SOURCE: European Journal of Inorganic Chemistry, VOLUME: 2020, ISSUE: 19
INDEXED IN: Scopus CrossRef: 2
IN MY: ORCID
82
TITLE: High Emission Quantum Yield Tb3+-Activated Organic-Inorganic Hybrids for UV-Down-Shifting Green Light-Emitting Diodes
AUTHORS: Correia, SFH; Fernandes, RL; Fu, LS; Nolasco, MM; Carlos, LD; Ferreira, RAS;
PUBLISHED: 2020, SOURCE: EUROPEAN JOURNAL OF INORGANIC CHEMISTRY, VOLUME: 2020, ISSUE: 18
INDEXED IN: Scopus WOS CrossRef: 9
IN MY: ORCID
83
TITLE: Simultaneous Measurement of the Emission Quantum Yield and Local Temperature: The Illustrative Example of SrF2:Yb3+/Er3+ Single Crystals
AUTHORS: Brites, CDS; Kuznetsov, SV; Konyushkin, VA; Nakladov, AN; Fedorov, PP; Carlos, LD;
PUBLISHED: 2020, SOURCE: European Journal of Inorganic Chemistry, VOLUME: 2020, ISSUE: 17
INDEXED IN: Scopus CrossRef
IN MY: ORCID
85
TITLE: La0.4Gd1.6Zr2O7:0.1%Pr transparent sintered ceramic - a wide-range luminescence thermometer
AUTHORS: Trojan Piegza, J; Brites, CDS; Ramalho, JFCB; Wang, ZJ; Zhou, GH; Wang, SW; Carlos, LD; Zych, E;
PUBLISHED: 2020, SOURCE: JOURNAL OF MATERIALS CHEMISTRY C, VOLUME: 8, ISSUE: 21
INDEXED IN: Scopus WOS CrossRef: 26
IN MY: ORCID
86
TITLE: Phosphor -based green -emitting coatings for circadian lighting
AUTHORS: Airton G Bispo; Sergio A M Lima; Luis D Carlos; Rute A S Ferreira; Ana M Pires;
PUBLISHED: 2020, SOURCE: JOURNAL OF LUMINESCENCE, VOLUME: 224
INDEXED IN: WOS
87
TITLE: Lanthanide Luminescence to Mimic Molecular Logic and Computing through Physical Inputs
AUTHORS: Miguel A Hernandez Rodriguez; Carlos D S Brites; Guillermo Antorrena; Rafael Pinol; Rafael Cases; Lluisa Perez Garcia; Mafalda Rodrigues; Jose Antonio Plaza; Nuria Torras; Isabel Diez; Angel Millan; Luis D Carlos;
PUBLISHED: 2020, SOURCE: ADVANCED OPTICAL MATERIALS, VOLUME: 8, ISSUE: 12
INDEXED IN: WOS
88
TITLE: Standardizing luminescence nanothermometry for biomedical applications
AUTHORS: Bednarkiewicz, A; Marciniak, L; Carlos, LD; Jaque, D;
PUBLISHED: 2020, SOURCE: NANOSCALE, VOLUME: 12, ISSUE: 27
INDEXED IN: Scopus WOS CrossRef: 271
IN MY: ORCID
89
TITLE: Field-induced slow magnetic relaxation and luminescence thermometry in a mononuclear ytterbium complex
AUTHORS: Fondo, M; Corredoira Vazquez, J; Garcia Deibe, AM; Sanmartin Matalobos, J; Amoza, M; Botas, AMP; Ferreira, RAS; Carlos, LD; Colacio, E;
PUBLISHED: 2020, SOURCE: INORGANIC CHEMISTRY FRONTIERS, VOLUME: 7, ISSUE: 16
INDEXED IN: Scopus WOS CrossRef: 40
IN MY: ORCID
90
TITLE: Exploiting bandgap engineering to finely control dual-mode Lu2(Ge,Si)O5:Pr3+luminescence thermometers
AUTHORS: Sójka, M; Brites, CDS; Carlos, LD; Zych, E;
PUBLISHED: 2020, SOURCE: Journal of Materials Chemistry C, VOLUME: 8, ISSUE: 29
INDEXED IN: Scopus CrossRef: 45
IN MY: ORCID
Page 9 of 38. Total results: 371.