Keyword search (4,163 papers available)

"luminescence" Keyword-tagged Publications:

Title Authors PubMed ID
1 Scalable Synthesis of High-Quality Graphene Quantum Dots by Reductive Intercalation/Exfoliation of Coal Bepete G; Ratnayake G; Sanchez DE; Yu Z; Dimitrov E; Fest Carreno A; Oliveira MCD; Viana BC; Santos FEP; Terrones M; 41081673
PHYSICS
2 Upconversion Lanthanide-Based 2D Metal-Organic Frameworks for Multimode Information Encryption Chen J; Xie Y; Yang W; Sun R; Xing F; Mandl GA; Capobianco JA; Sun L; 40557752
CNSR
3 Combining Pr3+-Doped Nanoradiosensitizers and Endogenous Protoporphyrin IX for X-ray-Mediated Photodynamic Therapy of Glioblastoma Cells Mandl GA; Vettier F; Tessitore G; Maurizio SL; Bietar K; Stochaj U; Capobianco JA; 37267436
CHEMBIOCHEM
4 Cooperative Sensitization Upconversion in Solution Dispersions of Co-Crystal Assemblies of Mononuclear Yb3+ and Eu3+ Complexes Sun G; Xie Y; Wang Y; Mandl GA; Maurizio SL; Zhang H; Ottenwaelder X; Capobianco JA; Sun L; 37040148
CNSR
5 Upconversion Luminescence through Cooperative and Energy-Transfer Mechanisms in Yb3+ -Metal-Organic Frameworks Xie Y; Sun G; Mandl GA; Maurizio SL; Chen J; Capobianco JA; Sun L; 36437239
CNSR
6 Energy migration control of multi-modal emissions in an Er3+ doped nanostructure toward information encryption and deep learning decoding Song Y; Lu M; Mandl GA; Xie Y; Sun G; Chen J; Liu X; Capobianco JA; Sun L; 34476872
ENCS
7 The Key Role of Intrinsic Lifetime Dynamics from Upconverting Nanosystems in Multiemission Particle Velocimetry Tessitore G; Maurizio SL; Sabri T; Skinner CD; Capobianco JA; 32924221
CNSR
8 Optically Stimulated Nanodosimeters with High Storage Capacity. Van der Heggen D, Cooper DR, Tesson M, Joos JJ, Seuntjens J, Capobianco JA, Smet PF 31387200
CNSR

 

Title:Optically Stimulated Nanodosimeters with High Storage Capacity.
Authors:Van der Heggen DCooper DRTesson MJoos JJSeuntjens JCapobianco JASmet PF
Link:https://www.ncbi.nlm.nih.gov/pubmed/31387200?dopt=Abstract
DOI:10.3390/nano9081127
Publication:Nanomaterials (Basel, Switzerland)
Keywords:dosimetrynanophosphoroptically stimulated luminescencepersistent phosphorsthermoluminescence
PMID:31387200 Category:Nanomaterials (Basel) Date Added:2019-08-08
Dept Affiliation: CNSR
1 LumiLab, Department of Solid State Sciences, Ghent University, Krijgslaan 281-S1, 9000 Gent, Belgium.
2 Medical Physics Unit, McGill University, Cedars Cancer Centre, 1001 Décarie Blvd, Montreal, QC H4A 3J1, Canada.
3 Department of Chemistry and Biochemistry and Centre for NanoScience Research, Concordia University, 7141 Sherbrooke St. W., Montreal, QC H4B 1R6, Canada.
4 LumiLab, Department of Solid State Sciences, Ghent University, Krijgslaan 281-S1, 9000 Gent, Belgium. Philippe.Smet@UGent.be.

Description:

Optically Stimulated Nanodosimeters with High Storage Capacity.

Nanomaterials (Basel). 2019 Aug 05;9(8):

Authors: Van der Heggen D, Cooper DR, Tesson M, Joos JJ, Seuntjens J, Capobianco JA, Smet PF

Abstract

In this work we report on the thermoluminescence (TL) and optically stimulated luminescence (OSL) properties of ß-Na(Gd,Lu)F4:Tb3+ nanophosphors prepared via a standard high-temperature coprecipitation route. Irradiating this phosphor with X-rays not only produces radioluminescence but also leads to a bright green afterglow that is detectable up to hours after excitation has stopped. The storage capacity of the phosphor was found to be (2.83 ± 0.05) × 1016 photons/gram, which is extraordinarily high for nano-sized particles and comparable to the benchmark bulk phosphor SrAl2O4:Eu2+,Dy3+. By combining TL with OSL, we show that the relatively shallow traps, which dominate the TL glow curves and are responsible for the bright afterglow, can also be emptied optically using 808 or 980 nm infrared light while the deeper traps can only be emptied thermally. This OSL at therapeutically relevant radiation doses is of high interest to the medical dosimetry community, and is demonstrated here in uniform, solution-processable nanocrystals.

PMID: 31387200 [PubMed]




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