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Materials for Luminescent Detectors and Transformers of Ionizing Radiation

A special issue of Materials (ISSN 1996-1944). This special issue belongs to the section "Optical and Photonic Materials".

Deadline for manuscript submissions: closed (20 December 2022) | Viewed by 16341

Special Issue Editors

Prof. Dr. Yuriy Zorenko

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Guest Editor
Institute of Physics, Kazimierz Wielki University in Bydgoszcz, Bydgoszcz, Poland
Interests: scintillators; development of luminescent materials in the single crystalline and crystals forms; energy transfer proceses in scintillators; defects and dopant as emission and trapping centers in dielectrics
Special Issues, Collections and Topics in MDPI journals
Prof. Dr. Kazimierz Fabisiak

E-Mail Website
Guest Editor
Department of Production Engineering Management, University of Bydgoszcz, Unii Lubelskiej 4c, 85059 Bydgoszcz, Poland
Interests: CVD diamond; thin nano- and microcrystalline films; diamond single crystals; optical spectroscopy
Special Issues, Collections and Topics in MDPI journals

Special Issue Information

Dear Colleagues,

We have the honour and pleasure to invite you to publish your latest results in a Special Issue "Materials for Luminescent Detectors and Transformers of Ionizing Radiation" of "Materials".

Significant achievements in recent years in the synthesis of new luminescence compounds in the different crystalline forms resulted in easy access of engineers and designers to these materials for creation of various detectors of ionizing radiation for application in the different branches of industry and science. These new materials offer solutions that can shift performance of respective devices to new levels and enabling completely new approaches to challenging problems, especially in the medical diagnostic.

This special issue of Material "Materials for Luminescent Detectors and Transformers of Ionizing Radiation" will be a forum for the presentation of the latest developments in basic and applied research in the field of radioluminescence, the processes of energy transfer and storage in solids, the physics and chemistry of luminescent phosphor and scintillation materials, and related with them applications.

Prof. Dr. Yuriy Zorenko
Prof. Dr. Kazimierz Fabisiak
Guest Editors

Manuscript Submission Information

Manuscripts should be submitted online at www.mdpi.com by registering and logging in to this website. Once you are registered, click here to go to the submission form. Manuscripts can be submitted until the deadline. All submissions that pass pre-check are peer-reviewed. Accepted papers will be published continuously in the journal (as soon as accepted) and will be listed together on the special issue website. Research articles, review articles as well as short communications are invited. For planned papers, a title and short abstract (about 100 words) can be sent to the Editorial Office for announcement on this website.

Submitted manuscripts should not have been published previously, nor be under consideration for publication elsewhere (except conference proceedings papers). All manuscripts are thoroughly refereed through a single-blind peer-review process. A guide for authors and other relevant information for submission of manuscripts is available on the Instructions for Authors page. Materials is an international peer-reviewed open access semimonthly journal published by MDPI.

Please visit the Instructions for Authors page before submitting a manuscript. The Article Processing Charge (APC) for publication in this open access journal is 2600 CHF (Swiss Francs). Submitted papers should be well formatted and use good English. Authors may use MDPI's English editing service prior to publication or during author revisions.

Keywords

  • luminescent materials
  • radiation detectors and transformers of ionizing radiation
  • crystals
  • film
  • nanophosphors and nanocomposites

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Published Papers (12 papers)

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Editorial

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3 pages, 10154 KiB  
Editorial
Special Issues of “Materials for Luminescent Detectors and Transformers of Ionizing Radiation”
by Yuriy Zorenko, Kazimierz Fabisiak and Janusz Winiecki
Materials 2023, 16(9), 3319; https://0-doi-org.brum.beds.ac.uk/10.3390/ma16093319 - 23 Apr 2023
Viewed by 921
Abstract
The papers published in the first and second Special Issues of “Materials for Luminescent Detectors and Transformers of Ionizing Radiation” were selected from the manuscripts related to the respective presentations at the 11th International Conference on Luminescent Detectors and Transformers of Ionizing Radiation [...] Read more.
The papers published in the first and second Special Issues of “Materials for Luminescent Detectors and Transformers of Ionizing Radiation” were selected from the manuscripts related to the respective presentations at the 11th International Conference on Luminescent Detectors and Transformers of Ionizing Radiation (LUMDETR 2021), which was organized by the Institute of Physics of Kazimierz Wielki University of Bydgoszcz and Oncology Center prof [...] Full article
(This article belongs to the Special Issue Materials for Luminescent Detectors and Transformers of Ionizing Radiation)
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Research

Jump to: Editorial, Review

15 pages, 4288 KiB  
Article
Optically Stimulated Luminescent Response of the LiMgPO4 Silicone Foils to Protons and Its Dependence on Proton Energy
by Michał Sądel, Leszek Grzanka, Jan Swakoń, Jakub Baran, Jan Gajewski and Paweł Bilski
Materials 2023, 16(5), 1978; https://0-doi-org.brum.beds.ac.uk/10.3390/ma16051978 - 28 Feb 2023
Cited by 2 | Viewed by 1223
Abstract
Modern radiotherapy (RT) techniques, such as proton therapy, require more and more sophisticated dosimetry methods and materials. One of the newly developed technologies is based on flexible sheets made of a polymer, with the embedded optically stimulated luminescence (OSL) material in the form [...] Read more.
Modern radiotherapy (RT) techniques, such as proton therapy, require more and more sophisticated dosimetry methods and materials. One of the newly developed technologies is based on flexible sheets made of a polymer, with the embedded optically stimulated luminescence (OSL) material in the form of powder (LiMgPO4, LMP) and a self-developed optical imaging setup. The detector properties were evaluated to study its potential application in the proton treatment plan verification for eyeball cancer. The data showed a well-known effect of lower luminescent efficiency of the LMP material response to proton energy. The efficiency parameter depends on a given material and radiation quality parameters. Therefore, the detailed knowledge of material efficiency is crucial in establishing a calibration method for detectors exposed to mixed radiation fields. Thus, in the present study, the prototype of the LMP-based silicone foil material was tested with monoenergetic uniform proton beams of various initial kinetic energies constituting the so-called spread-out Bragg peak (SOBP). The irradiation geometry was also modelled using the Monte Carlo particle transport codes. Several beam quality parameters, including dose and the kinetic energy spectrum, were scored. Finally, the obtained results were used to correct the relative luminescence efficiency response of the LMP foils for monoenergetic and spread-out proton beams. Full article
(This article belongs to the Special Issue Materials for Luminescent Detectors and Transformers of Ionizing Radiation)
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16 pages, 3518 KiB  
Article
Single Crystalline Films of Ce3+-Doped Y3MgxSiyAl5−x−yO12 Garnets: Crystallization, Optical, and Photocurrent Properties
by Vitaliy Gorbenko, Tetiana Zorenko, Anna Shakhno, Paweł Popielarski, Andres Osvet, Miroslaw Batentschuk, Alexander Fedorov, Sebastian Mahlik, Tadeusz Leśniewski, Natalia Majewska and Yuriy Zorenko
Materials 2023, 16(5), 1869; https://0-doi-org.brum.beds.ac.uk/10.3390/ma16051869 - 24 Feb 2023
Cited by 1 | Viewed by 1113
Abstract
This research focuses on LPE growth, and the examination of the optical and photovoltaic properties of single crystalline film (SCF) phosphors based on Ce3+-doped Y3MgxSiyAl5−x−yO12 garnets with Mg and Si contents in [...] Read more.
This research focuses on LPE growth, and the examination of the optical and photovoltaic properties of single crystalline film (SCF) phosphors based on Ce3+-doped Y3MgxSiyAl5−x−yO12 garnets with Mg and Si contents in x = 0–0.345 and y = 0–0.31 ranges. The absorbance, luminescence, scintillation, and photocurrent properties of Y3MgxSiyAl5−x−yO12:Ce SCFs were examined in comparison with Y3Al5O12:Ce (YAG:Ce) counterpart. Especially prepared YAG:Ce SCFs with a low (x, y < 0.1) concentration of Mg2+ and Mg2+–Si4+ codopants also showed a photocurrent that increased with rising Mg2+ and Si4+ concentrations. Mg2+ excess was systematically present in as-grown Y3MgxSiyAl5−x−yO12:Ce SCFs. The as-grown SCFs of these garnets under the excitation of α–particles had a low light yield (LY) and a fast scintillation response with a decay time in the ns range due to producing the Ce4+ ions as compensators for the Mg2+ excess. The Ce4+ dopant recharged to the Ce3+ state after SCF annealing at T > 1000 °C in a reducing atmosphere (95%N2 + 5%H2). Annealed SCF samples exhibited an LY of around 42% and similar scintillation decay kinetics to those of the YAG:Ce SCF counterpart. The photoluminescence studies of Y3MgxSiyAl5−x−yO12:Ce SCFs provide evidence for Ce3+ multicenter formation and the presence of an energy transfer between various Ce3+ multicenters. The Ce3+ multicenters possessed variable crystal field strengths in the nonequivalent dodecahedral sites of the garnet host due to the substitution of the octahedral positions by Mg2+ and the tetrahedral positions by Si4+. In comparison with YAG:Ce SCF, the Ce3+ luminescence spectra of Y3MgxSiyAl5−x−yO12:Ce SCFs greatly expanded in the red region. Using these beneficial trends of changes in the optical and photocurrent properties of Y3MgxSiyAl5−x−yO12:Ce garnets as a result of Mg2+ and Si4+ alloying, a new generation of SCF converters for white LEDs, photovoltaics, and scintillators could be developed. Full article
(This article belongs to the Special Issue Materials for Luminescent Detectors and Transformers of Ionizing Radiation)
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11 pages, 3098 KiB  
Article
Development of Three-Layered Composite Color Converters for White LEDs Based on the Epitaxial Structures of YAG:Ce, TbAG:Ce and LuAG:Ce Garnets
by Anton Markovskyi, Vitaliy Gorbenko, Tatiana Zorenko, Sandra Witkiewicz-Lukaszek, Oleg Sidletskiy, Alexander Fedorov and Yuriy Zorenko
Materials 2023, 16(5), 1848; https://0-doi-org.brum.beds.ac.uk/10.3390/ma16051848 - 23 Feb 2023
Cited by 3 | Viewed by 1021
Abstract
This work was dedicated to the development of novel types of composite phosphor converters of white LED, based on the epitaxial structures containing Y3Al5O12:Ce (YAG:Ce) and Tb3Al5O12:Ce (TbAG:Ce) single crystalline films, [...] Read more.
This work was dedicated to the development of novel types of composite phosphor converters of white LED, based on the epitaxial structures containing Y3Al5O12:Ce (YAG:Ce) and Tb3Al5O12:Ce (TbAG:Ce) single crystalline films, steeply grown, using the liquid-phase epitaxy method, onto LuAG:Ce single crystal substrates. The influence of Ce3+ concentration in the LuAG:Ce substrate, as well as the thickness of the subsequent YAG:Ce and TbAG:Ce films, on the luminescence and photoconversion properties of the three-layered composite converters were investigated. Compared to its traditional YAG:Ce counterpart, the developed composite converter demonstrates broadened emission bands, due to the compensation of the cyan–green dip by the additional LuAG:Ce substrate luminescence, along with yellow–orange luminescence from the YAG:Ce and TbAG:Ce films. Such a combination of emission bands from various crystalline garnet compounds allows the production of a wide emission spectrum of WLEDs. In turn, the variation in the thickness and activator concentration in each part of the composite converter allows the production of almost any shade from green to orange emission on the chromaticity diagram. Full article
(This article belongs to the Special Issue Materials for Luminescent Detectors and Transformers of Ionizing Radiation)
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19 pages, 4538 KiB  
Article
Influence of Elevated Temperature on Color Centers in LiF Crystals and Their Photoluminescence
by Małgorzata Sankowska, Pawel Bilski, Barbara Marczewska and Yaroslav Zhydachevskyy
Materials 2023, 16(4), 1489; https://0-doi-org.brum.beds.ac.uk/10.3390/ma16041489 - 10 Feb 2023
Cited by 2 | Viewed by 1179
Abstract
The radiation-induced photoluminescence (PL) of LiF has found its way into many applications for the detection and imaging of ionizing radiation. In this work, the influence of thermal treatment at temperatures up to 400 °C on absorption and PL emission spectra as well [...] Read more.
The radiation-induced photoluminescence (PL) of LiF has found its way into many applications for the detection and imaging of ionizing radiation. In this work, the influence of thermal treatment at temperatures up to 400 °C on absorption and PL emission spectra as well as fluorescent nuclear tracks in irradiated LiF crystals was investigated. It was found that carrying out PL measurements with the crystals kept at the temperature of about 80 °C leads to a considerable increase in luminescence emission of F3+ color centers at 525 nm. This enhancement of PL intensity allows for the microscopic imaging of the fluorescent nuclear tracks using only F3+ emission, which is not possible at room temperature. It was also found that heating the irradiated crystals before measurement at temperatures from 100 °C to 200 °C increases the concentration of F3+ centers. However, the related enhancement of PL emission is insufficient in terms of enabling the observation of the fluorescent tracks in this part of the spectrum. In the case of the main PL emission at 670 nm related to F2 centers, the thermal treatment at around 290 °C substantially increases the intensity of fluorescent tracks. This effect, however, was found to occur only at low fluences of alpha particles (up to about 109 cm−2); therefore, it is barely visible in the emission spectrum and not noticeable in the absorption spectrum. Full article
(This article belongs to the Special Issue Materials for Luminescent Detectors and Transformers of Ionizing Radiation)
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16 pages, 7456 KiB  
Article
Application of the LPE-Grown LuAG: Ce Film/YAG Crystal Composite Thermoluminescence Detector for Distinguishing the Components of the Mixed Radiation Field
by Anna Mrozik, Paweł Bilski, Wojciech Gieszczyk, Mariusz Kłosowski, Sandra Witkiewicz-Łukaszek, Vitaliy Gorbenko, Tetiana Zorenko and Yuriy Zorenko
Materials 2022, 15(24), 8708; https://0-doi-org.brum.beds.ac.uk/10.3390/ma15248708 - 07 Dec 2022
Cited by 1 | Viewed by 979
Abstract
Single-crystalline films (SCFs) of the LuAG: Ce garnet grown using the liquid-phase epitaxy method onto YAG single-crystal (SC) substrates were investigated for possible applications as composite thermoluminescent (TL) detectors. Such detectors may help to register the different components of ionizing radiation fields with [...] Read more.
Single-crystalline films (SCFs) of the LuAG: Ce garnet grown using the liquid-phase epitaxy method onto YAG single-crystal (SC) substrates were investigated for possible applications as composite thermoluminescent (TL) detectors. Such detectors may help to register the different components of ionizing radiation fields with various penetration depths, e.g., heavy charged particles and gamma or beta rays. It was found that the TL signal of LuAG: Ce SCF sufficiently differs from that of the YAG substrate concerning both the temperature and wavelength of emissions. Furthermore, even by analyzing TL glow curves, it was possible to distinguish the difference between weakly and deeply penetrating types of radiation. Within a test involving the exposure of detectors with the mixed alpha/beta radiations, the doses of both components were determined with an accuracy of a few percent. Full article
(This article belongs to the Special Issue Materials for Luminescent Detectors and Transformers of Ionizing Radiation)
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13 pages, 3720 KiB  
Article
Development of the Composite Thermoluminescent Detectors Based on the Single Crystalline Films and Crystals of Perovskite Compounds
by Sandra Witkiewicz-Lukaszek, Anna Mrozik, Vitaliy Gorbenko, Tetiana Zorenko, Pawel Bilski, Yurii Syrotych and Yuriy Zorenko
Materials 2022, 15(23), 8481; https://0-doi-org.brum.beds.ac.uk/10.3390/ma15238481 - 28 Nov 2022
Cited by 1 | Viewed by 861
Abstract
This work is dedicated to the development of new types of composite thermoluminescent detectors based on the single crystalline films of Ce-doped GdAlO3 perovskite and Mn-doped YAlO3 and (Lu0.8Y0.2)AlO3:Mn perovskites as well as Ce and [...] Read more.
This work is dedicated to the development of new types of composite thermoluminescent detectors based on the single crystalline films of Ce-doped GdAlO3 perovskite and Mn-doped YAlO3 and (Lu0.8Y0.2)AlO3:Mn perovskites as well as Ce and Pr-doped YAlO3 single crystal substrates. These detectors were obtained using the Liquid Phase Epitaxy growth method from the melt solution based on the PbO-B2O3 fluxes. Such composite detectors can by applied for the simultaneous registration of different components of mixed ionization fluxes using the differences between the thermoluminescent glow curves, recorded from the film and crystal parts of epitaxial structures. For creation of the new composite detectors, we considered using, for the film and crystal components of epitaxial structures (i) the different perovskite matrixes doped with the same type of activator or (ii) the same perovskite host with various types of activators. The thermoluminescent properties of the different types of epitaxial structures based on the abovementioned films and crystal substrates were examined in the conditions of β-particles and X-ray excitation with aim of determination of the optimal combination of perovskites for composite detectors. It was shown that, among the structures with all the studied compositions, the best properties for the simultaneous thermoluminescent detection of α- and X-rays were the GdAlO3:Ce film/YAlO3:Ce crystal epitaxial structure. Full article
(This article belongs to the Special Issue Materials for Luminescent Detectors and Transformers of Ionizing Radiation)
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13 pages, 5574 KiB  
Article
Infrared Stimulated Luminescence of Ce3+ Doped YAG Crystals
by Paweł Bilski, Anna Mrozik, Wojciech Gieszczyk, Sergiy Nizhankovskiy and Yuriy Zorenko
Materials 2022, 15(23), 8288; https://0-doi-org.brum.beds.ac.uk/10.3390/ma15238288 - 22 Nov 2022
Cited by 4 | Viewed by 1068
Abstract
In this study, the infrared optically stimulated luminescence (IRSL) of single crystals of Ce3+ doped yttrium aluminum garnet (YAG) was investigated for the first time. It was found that infrared stimulation of these crystals, following previous exposure to beta radiation, produces a [...] Read more.
In this study, the infrared optically stimulated luminescence (IRSL) of single crystals of Ce3+ doped yttrium aluminum garnet (YAG) was investigated for the first time. It was found that infrared stimulation of these crystals, following previous exposure to beta radiation, produces a strong luminescence signal. The highest luminescence efficiency was exhibited by the YAG crystal with 0.1% of Ce. With this crystal, it was possible to measure as low doses as 0.1 mGy. Moreover, IRSL is mainly related to the TL peak at a relatively high temperature of c.a. 175 °C, which leads to quite good stability of the signal in time. These properties create good prospects for potential applications of YAG:Ce in dosimetric radiation measurements Full article
(This article belongs to the Special Issue Materials for Luminescent Detectors and Transformers of Ionizing Radiation)
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20 pages, 7137 KiB  
Article
Scintillation Characteristics of the Single-Crystalline Film and Composite Film-Crystal Scintillators Based on the Ce3+-Doped (Lu,Gd)3(Ga,Al)5O12 Mixed Garnets under Alpha and Beta Particles, and Gamma Ray Excitations
by Jiri A. Mares, Vitalii Gorbenko, Romana Kucerkova, Petr Prusa, Alena Beitlerova, Tetiana Zorenko, Martin Pokorny, Sandra Witkiewicz-Łukaszek, Yurii Syrotych, Carmelo D’Ambrosio, Martin Nikl, Oleg Sidletskiy and Yuriy Zorenko
Materials 2022, 15(22), 7925; https://0-doi-org.brum.beds.ac.uk/10.3390/ma15227925 - 09 Nov 2022
Cited by 1 | Viewed by 1493
Abstract
The crystals of (Lu,Gd)3(Ga,Al)5O12 multicomponent garnets with high density ρ and effective atomic number Zeff are characterized by high scintillation efficiency and a light yield value up to 50,000 ph/MeV. During recent years, single-crystalline films and composite [...] Read more.
The crystals of (Lu,Gd)3(Ga,Al)5O12 multicomponent garnets with high density ρ and effective atomic number Zeff are characterized by high scintillation efficiency and a light yield value up to 50,000 ph/MeV. During recent years, single-crystalline films and composite film/crystal scintillators were developed on the basis of these multicomponent garnets. These film/crystal composites are potentially applicable for particle identification by pulse shape discrimination due to the fact that α-particles excite only the film response, γ-radiation excites only the substrate response, and β-particles excite both to some extent. Here, we present new results regarding scintillating properties of selected (Lu,Gd)3(Ga,Al)5O12:Ce single-crystalline films under excitation by alpha and beta particles and gamma ray photons. We conclude that some of studied compositions are indeed suitable for testing in the proposed application, most notably Lu1.5Gd1.5Al3Ga2O12:Ce film on the GAGG:Ce substrate, exhibiting an α-particle-excited light yield of 1790–2720 ph/MeV and significantly different decay curves excited by α- and γ-radiation. Full article
(This article belongs to the Special Issue Materials for Luminescent Detectors and Transformers of Ionizing Radiation)
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12 pages, 4228 KiB  
Article
Basic Characteristics of Dose Distributions of Photons Beam for Radiotherapeutic Applications Using YAG:Ce Crystal Detectors
by Janusz Winiecki, Sandra Witkiewicz-Lukaszek, Paulina Michalska, Seweryn Jakubowski, Sergiy Nizhankovskiy and Yuriy Zorenko
Materials 2022, 15(21), 7861; https://0-doi-org.brum.beds.ac.uk/10.3390/ma15217861 - 07 Nov 2022
Cited by 2 | Viewed by 1552
Abstract
Thermostimulated luminescence (TSL) dosimetry is a versatile tool for the assessment of dose from ionizing radiation. In this work, the Ce3+ doped Y3Al5O12 garnet (YAG:Ce) with a density ρ = 4.56 g/cm3 and effective atomic number [...] Read more.
Thermostimulated luminescence (TSL) dosimetry is a versatile tool for the assessment of dose from ionizing radiation. In this work, the Ce3+ doped Y3Al5O12 garnet (YAG:Ce) with a density ρ = 4.56 g/cm3 and effective atomic number Zeff = 35 emerged as a prospective TSL material in radiotherapy applications due to its excellent radiation stability, uniformity of structural and optical properties, high yield of TSL, and good position of main glow peak around 290–300 °C. Namely, the set of TSL detectors produced from the YAG:Ce single crystal is used for identification of the uniformity of dose and energy spectra of X-ray radiation generated by the clinical accelerator with 6 MV and 15 MV beams located in Radiotherapy Department at the Oncology Center in Bydgoszcz, Poland. We have found that the YAG:Ce crystal detects shows very promising results for registration of X-ray radiation generated by the accelerator with 6 MV beam. The next step in the research is connected with application of TSL detectors based on the crystals of much heavier garnets than YAG. It is estimated that the LuAG:Ce garnet crystals with high density ρ = 6.0 g/cm3 and Zeff = 62 can be used to evaluate the X-rays produced by the accelerator with the 15 MV beam. Full article
(This article belongs to the Special Issue Materials for Luminescent Detectors and Transformers of Ionizing Radiation)
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14 pages, 8396 KiB  
Article
Micropowder Ca2YMgScSi3O12:Ce Silicate Garnet as an Efficient Light Converter for White LEDs
by Anna Shakhno, Anton Markovskyi, Tetiana Zorenko, Sandra Witkiewicz-Łukaszek, Yevheniya Vlasyuk, Andres Osvet, Jack Elia, Christoph J. Brabec, Miroslaw Batentschuk and Yuriy Zorenko
Materials 2022, 15(11), 3942; https://0-doi-org.brum.beds.ac.uk/10.3390/ma15113942 - 01 Jun 2022
Cited by 6 | Viewed by 1527
Abstract
This work is dedicated to the crystallization and luminescent properties of a prospective Ca2YMgScSi3O12:Ce (CYMSSG:Ce) micropowder (MP) phosphor converter (pc) for a white light–emitting LED (WLED). The set of MP samples was obtained by conventional solid-phase synthesis [...] Read more.
This work is dedicated to the crystallization and luminescent properties of a prospective Ca2YMgScSi3O12:Ce (CYMSSG:Ce) micropowder (MP) phosphor converter (pc) for a white light–emitting LED (WLED). The set of MP samples was obtained by conventional solid-phase synthesis using different amounts of B2O3 flux in the 1–5 mole percentage range. The luminescent properties of the CYMSSG:Ce MPs were investigated at different Ce3+ concentrations in the 1–5 atomic percentage range. The formation of several Ce3+ multicenters in the CYMSSG:Ce MPs was detected in the emission and excitation spectra as well as the decay kinetics of the Ce3+ luminescence. The creation of the Ce3+ multicenters in CYMSSG:Ce garnet results from: (i) the substitution by the Ce3+ ions of the heterovalent Ca2+ and Y3+ cations in the dodecahedral position of the garnet host; (ii) the inhomogeneous local environment of the Ce3+ ions when the octahedral positions of the garnet are replaced by heterovalent Mg2+ and Sc3+ cations and the tetrahedral positions are replaced by Si4+ cations. The presence of Ce3+ multicenters significantly enhances the Ce3+ emission band in the red range in comparison with conventional YAG:Ce phosphor. Prototypes of the WLEDs were also created in this work by using CYMSSG:Ce MP films as phosphor converters. Furthermore, the dependence of the photoconversion properties on the layer thickness of the CYMSSG:Ce MP was studied as well. The changes in the MP layer thickness enable the tuning of the white light thons from cold white/daylight to neutral white. The obtained results are encouraging and can be useful for the development of a novel generation of pcs for WLEDs. Full article
(This article belongs to the Special Issue Materials for Luminescent Detectors and Transformers of Ionizing Radiation)
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Review

Jump to: Editorial, Research

31 pages, 13349 KiB  
Review
Composite Detectors Based on Single-Crystalline Films and Single Crystals of Garnet Compounds
by Sandra Witkiewicz-Lukaszek, Vitalii Gorbenko, Tetiana Zorenko, Yurii Syrotych, Jiri A. Mares, Martin Nikl, Oleg Sidletskiy, Pawel Bilski, Akira Yoshikawa and Yuriy Zorenko
Materials 2022, 15(3), 1249; https://0-doi-org.brum.beds.ac.uk/10.3390/ma15031249 - 08 Feb 2022
Cited by 12 | Viewed by 2394
Abstract
This manuscript summarizes recent results on the development of composite luminescent materials based on the single-crystalline films and single crystals of simple and mixed garnet compounds obtained by the liquid-phase epitaxy growth method. Such composite materials can be applied as scintillating and thermoluminescent [...] Read more.
This manuscript summarizes recent results on the development of composite luminescent materials based on the single-crystalline films and single crystals of simple and mixed garnet compounds obtained by the liquid-phase epitaxy growth method. Such composite materials can be applied as scintillating and thermoluminescent (TL) detectors for radiation monitoring of mixed ionization fluxes, as well as scintillation screens in the microimaging techniques. The film and crystal parts of composite detectors were fabricated from efficient scintillation/TL materials based on Ce3+-, Pr3+-, and Sc3+-doped Lu3Al5O12 garnets, as well as Ce3+-doped Gd3−xAxAl5−yGayO12 mixed garnets, where A = Lu or Tb; x = 0–1; y = 2–3 with significantly different scintillation decay or positions of the main peaks in their TL glow curves. This work also summarizes the results of optical study of films, crystals, and epitaxial structures of these garnet compounds using absorption, cathodoluminescence, and photoluminescence. The scintillation and TL properties of the developed materials under α- and β-particles and γ-quanta excitations were studied as well. The most efficient variants of the composite scintillation and TL detectors for monitoring of composition of mixed beams of ionizing radiation were selected based on the results of this complex study. Full article
(This article belongs to the Special Issue Materials for Luminescent Detectors and Transformers of Ionizing Radiation)
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