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Journal articles on the topic 'YVO'

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Author: Grafiati
Published: 11 March 2023

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1

Zeng, Hui-Hui, Zhi-Ying Zhou, Fang Liu, Jie Deng, Shu-Yun Huang, Guo-Ping Li, Pei-Qing Lai, Yue-Ping Xie, and Wei Xiao. "Design and synthesis of a vanadate-based ratiometric fluorescent probe for sequential recognition of Cu2+ ions and biothiols." Analyst 144, no. 24 (2019): 7368–77. http://dx.doi.org/10.1039/c9an01518c.

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YVO4:Eu3+@CDs core–shell nanomaterial was synthesized through a simple self-assembly of carbon dots (CDs) with YVO4:Eu3+, since the high affinity of oxygen-containing groups such as –COOH or –OH of CDs to the metal ions on the surface of YVO4:Eu3+.
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2

Mascarelli, Amanda Leigh. "Interview: Yvo de Boer." Nature Climate Change 1, no. 812 (November 27, 2008): 164–65. http://dx.doi.org/10.1038/climate.2008.128.

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3

Zhao, Shuang, Baiqi Shao, Yang Feng, Senwen Yuan, Langping Dong, Liang Zhang, and Hongpeng You. "A novel synthesis of YVO4:Ln3+ (Ln = Eu, Sm, and Dy) porous/hollow submicro-ellipsoids and their luminescence properties." CrystEngComm 22, no. 19 (2020): 3340–46. http://dx.doi.org/10.1039/d0ce00526f.

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4

SHEN Lei-jun, 沈雷军, 李波 LI Bo, 王忠志 WANG Zhong-zhi, 高乐乐 GAO Le-le, 周永勃 ZHOU Yong-bo, 赵增祺 ZHAO Zeng-qi, and 张国斌 ZHANG Guo-bin. "Vacuum Ultraviolet Spectra of YVO." Chinese Journal of Luminescence 35, no. 9 (2014): 1034–39. http://dx.doi.org/10.3788/fgxb20143509.1034.

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5

Ramsland, Paul A., Simon S. Terzyan, Gwendolyn Cloud, Christina R. Bourne, William Farrugia, Gordon Tribbick, H. Mario Geysen, Carolyn R. Moomaw, Clive A. Slaughter, and Allen B. Edmundson. "Crystal structure of a glycosylated Fab from an IgM cryoglobulin with properties of a natural proteolytic antibody." Biochemical Journal 395, no. 3 (April 11, 2006): 473–81. http://dx.doi.org/10.1042/bj20051739.

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The 2.6 Å (1 Å=0.1 nm) resolution structure has been determined for the glycosylated Fab (fragment antigen binding) of an IgM (Yvo) obtained from a subject with Waldenström's macroglobulinaemia. Dynamic light scattering was used to estimate the gel point and monitor the formation of an ordered hydroscopic gel of Yvo IgM upon cooling. If a cryoglobulin forms gels in peripheral tissues and organs, the associated swelling and damage to microvasculature can result in considerable morbidity and mortality. The three-dimensional structure of the branched N-linked oligosaccharide associated with the CH1 domain (first constant domain of heavy chain) is reported. The carbohydrate may act to shield part of the lateral surface of the CH1 domain and crowd the junction between the CH1 and CH2 domains, thereby limiting the segmental flexibility of the Fab arms in intact Yvo IgM, especially at low temperatures. Recently, Yvo IgM was shown to have the properties of a naturally occurring proteolytic antibody [Paul, Karle, Planque, Taguchi, Salas, Nishiyama, Handy, Hunter, Edmundson and Hanson (2004) J. Biol. Chem. 279, 39611–39619; Planque, Bangale, Song, Karle, Taguchi, Poindexter, Bick, Edmundson, Nishiyama and Paul (2004) J. Biol Chem. 279, 14024–14032]. The Yvo protein displayed the ability to cleave, by a nucleophilic mechanism, the amide bonds of a variety of serine protease substrates and the gp120 coat protein of HIV. An atypical serine, arginine and glutamate motif is located in the middle of the Yvo antigen-binding site and displays an overall geometry that mimics the classical serine, histidine and aspartate catalytic triad of serine proteases. Our present findings indicate that pre-existing or natural antibodies can utilize at least one novel strategy for the cleavage of peptide bonds.
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6

TAKAHASHI, MANABU, and JUN-ICHI IGARASHI. "RESONANT X-RAY SCATTERING IN YTiO3 AND YVO3." Surface Review and Letters 09, no. 02 (April 2002): 1197–201. http://dx.doi.org/10.1142/s0218625x02003512.

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We investigate the Ti and V K edge resonant X-ray scattering spectra in YTiO 3 and YVO 3 by using ab initio band structure calculation based on the local density approximation. The calculated spectra show good agreement with recent experiments, although the effect of the orbital ordering is neglected, while that of the lattice distortion is taken into account in the calculation. Particularly, the observed drastic change of the spectra for the (100) reflection between the low temperature and intermediate temperature phases of YVO 3 is nicely explained by the difference of the Jahn–Teller distortion between the two phases. These results cast doubt on an assertion that the resonant X-ray scattering is a direct observation of the orbital order in YTiO 3 and YVO 3.
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7

Li, Jia Gui, Guo Cong Liu, and Da Wen Liang. "Solvothermal Synthesis and Photoluminescence of Rod-Like YVO4:Dy 3+ Nanocrystals." Advanced Materials Research 415-417 (December 2011): 633–36. http://dx.doi.org/10.4028/www.scientific.net/amr.415-417.633.

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YVO 4:Dy 3+ nanorods were synthesized via a solvothermal route at 150°C. The as-prepared products were investigated using the X-ray powder diffraction, transmission electron microscopy, and photoluminescence spectroscopy. The results showed that the average particle sizes of these nanorods are from 20 to 600 nm. The photoluminescence (PL) measurements showed that these nanorods exhibited improved photoluminescence compared with YVO 4:Dy 3+ irregular nanoparticles. It is found that the appropriate calcinations temperature is helpful to improve the yellow emission.
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8

KIM*, Gyu Ug, Han Tae CHOO, Cha Gon PARK, Jin Hyeok CHOI, and Dohwan KWON. "Erratum:Laser-Diode-Pumped Actively Q-Switched YVO$_4$-Nd:YVO$_4$-YVO$_4$ 1525 nm Self Raman Laser." New Physics: Sae Mulli 71, no. 4 (April 30, 2021): 420. http://dx.doi.org/10.3938/npsm.71.420.

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9

KIM*, Gyu Ug, Han Tae CHOO, Cha Gon PARK, Jin Hyeok CHOI, and Dohwan KWON. "Laser-Diode-Pumped Actively Q-Switched YVO$_4$-Nd:YVO$_4$-YVO$_4$ 1525 nm Self Raman Laser." New Physics: Sae Mulli 67, no. 4 (April 28, 2017): 485–90. http://dx.doi.org/10.3938/npsm.67.485.

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10

YANG, HYUN KYOUNG, JONG WON CHUNG, BYUNG KEE MOON, BYUNG CHUN CHOI, JUNG HYUN JUNG, SOUNG SOO YI, JUNG HWAN KIM, and KWANG HO KIM. "SURFACE MORPHOLOGY AND PHOTOLUMINESCENCE CHARACTERISTICS OF Sm-DOPED YVO4 THIN FILMS." Surface Review and Letters 14, no. 05 (October 2007): 873–78. http://dx.doi.org/10.1142/s0218625x07010548.

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Surface morphology and crystallinity of YVO 4: Sm 3+ thin films have an influence on the photoluminescence characteristics. The YVO 4: Sm 3+ films have been deposited on Al 2 O 3 (0001) substrates using pulsed laser deposition method. The films were grown at the various substrate temperatures changing from 500 to 700°C. The crystallinity and surface morphology of the films were investigated using X-ray diffraction (XRD) and atomic force microscopy (AFM), respectively. The results of XRD showed that YVO 4: Sm 3+ films had a zircon structure and AFM study revealed that the films consisted of homogeneous grains ranging from 100 to 400 nm depending on the deposition conditions. The photoluminescence spectra were measured at room temperature and the emitted radiation was dominated by the red emission peak at 620 nm radiated from the transition of 5 D 0-7 F 2. The crystallinity, surface morphology, and photoluminescence spectra of thin-film phosphors were highly dependent on the substrate temperature. The surface roughness and photoluminescence intensity of the films showed similar behavior as a function of substrate temperature.
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11

Avila, Francisco J., Benny D. Bruton, Jacqueline Fletcher, J. L. Sherwood, Sam D. Pair, and Ulrich Melcher. "Polymerase Chain Reaction Detection and Phylogenetic Characterization of an Agent Associated with Yellow Vine Disease of Cucurbits." Phytopathology® 88, no. 5 (May 1998): 428–36. http://dx.doi.org/10.1094/phyto.1998.88.5.428.

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Diagnosis of yellow vine disease (YVD) in cucurbits, an important disease in the south-central United States, relies on external symptom appearance, phloem discoloration, and the presence of bacterium-like organisms (BLOs) in phloem. Polymerase chain reaction (PCR) amplification of BLO nucleotide sequences was explored as a means to improve diagnostic techniques. PCR, using a primer pair based on sequences of the citrus-greening BLO, amplified a 0.15-kilobase (kb) fragment from the DNA of symptomatic plants, but not from that of asymptomatic plants. Its nucleotide sequence suggested that the DNA amplified was of pro-karyotic origin. A primer pair, designed to amplify nonspecific prokaryotic 16S rDNA, amplified a 1.5-kb DNA fragment in both the symptomatic and asymptomatic plants. The 1.5-kb fragment from the asymptomatic plants corresponded to chloroplast 16S rDNA, and the band from the symptomatic plants was composed of 16S rDNAs from both chloroplasts and a prokaryote. The nucleotide sequence of the prokaryotic DNA was determined and used to design three primers (YV1, YV2, and YV3). Fragments of 0.64 and 1.43 kb were amplified with primers YV1-YV2 and primers YV1-YV3, respectively, from symptomatic plants. Neither primer set yielded fragments from asymptomatic plants, unrelated bacteria, or selected soilborne fungal pathogens of cucurbits. Phylogenetic analysis indicated that the prokaryote is a gamma-3 proteobacterium. The consistent association of the 0.64- and 1.43-kb fragments with symptomatic plants suggests that the gamma-3 proteobacterium may be the causal agent of YVD of cantaloupe, squash, and watermelon.
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12

Chu, Guang, Xuesi Wang, Tianrui Chen, Wen Xu, Yu Wang, Hongwei Song, and Yan Xu. "Chiral electronic transitions of YVO4:Eu3+ nanoparticles in cellulose based photonic materials with circularly polarized excitation." Journal of Materials Chemistry C 3, no. 14 (2015): 3384–90. http://dx.doi.org/10.1039/c4tc02913e.

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13

Kolesnikov, I. E., M. A. Kurochkin, E. V. Golyeva, D. V. Mamonova, A. A. Kalinichev, E. Yu Kolesnikov, and E. Lähderanta. "Multimode high-sensitivity optical YVO4:Ln3+ nanothermometers (Ln3+ = Eu3+, Dy3+, Sm3+) using charge transfer band features." Physical Chemistry Chemical Physics 22, no. 48 (2020): 28183–90. http://dx.doi.org/10.1039/d0cp04048g.

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14

Vignesh, K., A. Suganthi, Bong-Ki Min, M. Rajarajan, and Misook Kang. "Designing of YVO4 supported β-AgI nano-photocatalyst with improved stability." RSC Advances 5, no. 1 (2015): 576–85. http://dx.doi.org/10.1039/c4ra14291h.

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15

Singh, Laishram Priyobarta, Neena V. Jadhav, Sachil Sharma, Badri N. Pandey, Sri Krishna Srivastava, and Raghumani Singh Ningthoujam. "Hybrid nanomaterials YVO4:Eu/Fe3O4 for optical imaging and hyperthermia in cancer cells." Journal of Materials Chemistry C 3, no. 9 (2015): 1965–75. http://dx.doi.org/10.1039/c4tc02636e.

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16

Perrella, Rafael Vieira, and Paulo Cesar de Sousa Filho. "High-sensitivity dual UV/NIR-excited luminescence thermometry by rare earth vanadate nanoparticles." Dalton Transactions 49, no. 3 (2020): 911–22. http://dx.doi.org/10.1039/c9dt04308j.

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17

Chander, Nikhil, Atif F. Khan, and Vamsi K. Komarala. "Improved stability and enhanced efficiency of dye sensitized solar cells by using europium doped yttrium vanadate down-shifting nanophosphor." RSC Advances 5, no. 81 (2015): 66057–66. http://dx.doi.org/10.1039/c5ra10067d.

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18

Malyi, T., V. Tsiumra, A. Zhyshkovych, V. Vistovskyy, A. Vas'kiv, and A. Voloshinovskii. "Luminescent properties of microcrystals YVO$_4$-Bi,Eu." Visnyk of the Lviv University. Series Physics 56 (2019): 103. http://dx.doi.org/10.30970/vph.56.2019.103.

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19

Cavalli, Enrico. "Optical spectra and excited state dynamics of Sm 3+ -doped YVO 4 and YPO 4 crystals." Journal of Luminescence 183 (March 2017): 173–77. http://dx.doi.org/10.1016/j.jlumin.2016.11.047.

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20

Zhang, Ze-yu, Han Zhu, Quan-qing Xu, Feng-yi Liu, Ai-xin Zhu, and Jun-feng Kou. "Hybrid luminescent alginate hydrogels containing lanthanide with potential for acetone sensing." New Journal of Chemistry 43, no. 33 (2019): 13205–11. http://dx.doi.org/10.1039/c9nj01522a.

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Alginate hydrogels containing YVO4–Eu3+ have been prepared by using a facile method. These luminescent hydrogels can be used as sensors to detect acetone with quick response and good reversibility.
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21

Lan, Yayao, Zhifeng Liu, Zhengang Guo, Mengnan Ruan, Xifei Li, and Yufeng Zhao. "2D elongated polyhedral-like YVO4 films: a novel photoanode for photoelectrochemical water splitting." Chemical Communications 55, no. 70 (2019): 10468–71. http://dx.doi.org/10.1039/c9cc03995c.

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YVO4 films, prepared on FTO substrates using a long-term hydrothermal method, with two-dimensional (2D) elongated polyhedral microcrystals and serving as a novel photoanode in the photoelectrochemical (PEC) field, are reported for the first time.
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22

Yu, Yongli, Jianli Niu, Wei Li, Haixia Liu, and Meng Wang. "Sensitive detection of Brilliant Blue using fluorescence resonance energy transfer with YVO4:Eu nanocrystals as donors." Analytical Methods 10, no. 3 (2018): 359–64. http://dx.doi.org/10.1039/c7ay02281f.

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A FRET system was established using YVO4:Eu nanocrystals (NCs) as the energy donors and Brilliant Blue (BB) as the energy acceptor. Based on FRET, fluorimetry was successfully applied to determine BB in juice and candy samples.
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23

Getz, Michael N., Per-Anders Hansen, Øystein S. Fjellvåg, Mohammed A. K. Ahmed, Helmer Fjellvåg, and Ola Nilsen. "Intense NIR emission in YVO4:Yb3+ thin films by atomic layer deposition." Journal of Materials Chemistry C 5, no. 33 (2017): 8572–78. http://dx.doi.org/10.1039/c7tc02135f.

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Thin films of YVO4:Yb3+ exhibiting intense NIR emission have been deposited by atomic layer deposition. The NIR emission is attributed to a quantum splitting process that could be used to enhance the efficiency of solar cells.
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24

Леонтьев, А. В., Д. К. Жарков, А. Г. Шмелев, В. Г. Никифоров, and В. С. Лобков. "Люминесцентные характеристики наночастиц YVO 4 : Yb 3+ /Er 3+." Известия Российской академии наук. Серия физическая 83, no. 12 (2019): 1644–46. http://dx.doi.org/10.1134/s0367676519120135.

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25

Fan, Li, Weiqian Zhao, Xin Qiao, Changquan Xia, Lichun Wang, Huibo Fan, and Mingya Shen. "An efficient continuous-wave YVO 4 /Nd:YVO 4 /YVO 4 self-Raman laser pumped by a wavelength-locked 878.9 nm laser diode." Chinese Physics B 25, no. 11 (November 2016): 114207. http://dx.doi.org/10.1088/1674-1056/25/11/114207.

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Kang, Bora, Hyunsub Kim, and Song-Ho Byeon. "In situ immobilization of YVO4:Eu phosphor particles on a film of vertically oriented Y2(OH)5Cl·nH2O nanosheets." Chemical Communications 56, no. 84 (2020): 12745–48. http://dx.doi.org/10.1039/d0cc04746e.

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A heterostructured ‘turn-off’ film was developed using vertically oriented LYH:Eu nanosheets as a partial sacrificial layer for isolated YVO4:Eu3+ nanophosphor layers and was used for the convenient detection and removal of Cu2+ ions.
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27

VALLEJO, N. DIAZ, O. SANCHEZ, J. C. CAICEDO, W. APERADOR, and G. ZAMBRANO. "HOT CORROSION OF YTTRIUM STABILIZED ZIRCONIA COATINGS DEPOSITED BY AIR PLASMA SPRAY ON A NICKEL-BASED SUPERALLOY." Surface Review and Letters 24, no. 06 (November 24, 2016): 1750084. http://dx.doi.org/10.1142/s0218625x17500846.

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In this research, the electrochemical impedance spectroscopy (EIS) and Tafel analysis were utilized to study the hot corrosion performance at 700[Formula: see text]C of air plasma-sprayed (APS) yttria-stabilized zirconia (YSZ) coatings with a NiCrAlY bond coat grown by high velocity oxygen fuel spraying (HVOF), deposited on an INCONEL 625 substrate, in contact with corrosive solids salts as vanadium pentoxide V2O5 and sodium sulfate Na2SO4. The EIS data were interpreted based on proposed equivalent electrical circuits using a suitable fitting procedure performed with Echem AnalystTM Software. Phase transformations and microstructural development were examined using X-ray diffraction (XRD), with Rietveld refinement for quantitative phase analysis, scanning electron microscopy (SEM) was used to determinate the coating morphology and corrosion products. The XRD analysis indicated that the reaction between sodium vanadate (NaVO[Formula: see text] and yttrium oxide (Y2O[Formula: see text] produces yttrium vanadate (YVO[Formula: see text] and leads to the transformation from tetragonal to monoclinic zirconia phase.
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28

Jeyaraman, Jaishree, Anna Malecka, Poonam Billimoria, Akansha Shukla, Barsha Marandi, Poulam M. Patel, Andrew M. Jackson, and Sri Sivakumar. "Immuno-silent polymer capsules encapsulating nanoparticles for bioimaging applications." Journal of Materials Chemistry B 5, no. 26 (2017): 5251–58. http://dx.doi.org/10.1039/c7tb01044c.

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PEGylated polymer capsules encapsulating LaVO4:Tb3+, GdVO4:Tb3+, Gd2O3:Tb3+, GdF3:Tb3+, YVO4:Tb3+ and iron oxide nanoparticles are promising new fluorescence, magnetic and magnetofluorescence imaging agents.
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29

Sim, Woo Hyeong, Seyun Kim, Weon Ho Shin, and Hyung Mo Jeong. "Enhanced Energy-Transfer Properties in Core-Shell Photoluminescent Nanoparticles Using Mesoporous SiO2 Intermediate Layers." Korean Journal of Metals and Materials 58, no. 2 (February 5, 2020): 137–44. http://dx.doi.org/10.3365/kjmm.2020.58.2.137.

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Multi-layer core-shell nanoparticles (YVO<sub>4</sub>:Nd<sup>3+</sup>/mSiO<sub>2</sub>/SiO<sub>2</sub>) consisting of silica cores (SiO<sub>2</sub>), mesoporous silica (mSiO<sub>2</sub>) intermediate layers, and Neodymium doped rare-earth phosphor (YVO<sub>4</sub>:Nd<sup>3+</sup>) shell layers were successfully synthesized using the stepwise sol-gel method. The morphological structure and optical properties of the functional core-shell nanoparticles were characterized and evaluated by transmission electron microscopy (TEM), X-ray photoelectron spectroscopy (XPS), and photoluminescence (PL) analysis. mSiO<sub>2</sub> intermediate layers were utilized as the bridge between the core and shell materials. Their porous surfaces served to anchor the YVO<sub>4</sub>:Nd<sup>3+</sup> crystals. This prevents energy loss during the energy transfer of electrons, resulting in improved optical properties. The use of intermediate layer combinations of mSiO<sub>2</sub>/SiO<sub>2</sub> in the coreshell structure also improved cost-effectiveness, because the core is filled with cheap silica, not expensive phosphors. Even though the nanoparticles used only a thin layer of the photoluminescent shell materials, the optical properties, resulting from the energy-transfer emitting mid-infrared light, were remarkably enhanced by increasing the crystallinity of the phosphor. To demonstrate the practical use of the synthesis method, the photoluminescent properties of the core-shell nanoparticles were optimized by adjusting the annealing temperature and scaling to mass production. We believe that our efficient synthetic strategy provides a facile way of obtaining functional, cost-effective core-shell nanoparticles with improved photoluminescent properties.
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30

LIU, Yi, Ming-Lei ZHAO, and Yu-Ping ZENG. "Synthesis and Spectra Properties of YVO4:Eu Nanoparticles." Journal of Inorganic Materials 25, no. 9 (August 30, 2010): 957–60. http://dx.doi.org/10.3724/sp.j.1077.2010.00957.

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31

Жарков, Д. К., А. Г. Шмелев, А. В. Леонтьев, В. Г. Никифоров, В. С. Лобков, М. Х. Алькатани, and Ф. Р. Хеммер. "Влияние безызлучательных переходов на апконверсионные свойства наночастиц YVO 4 :Yb, Er." Известия Российской академии наук. Серия физическая 84, no. 3 (2020): 317–21. http://dx.doi.org/10.31857/s0367676520030308.

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32

Sevic, D., M. S. Rabasovic, J. Krizan, S. Savic-Sevic, M. Mitric, M. Gilic, B. Hadzic, and N. Romcevic. "Characterization and luminescence kinetics of Eu 3+ doped YVO 4 nanopowders." Materials Research Bulletin 88 (April 2017): 121–26. http://dx.doi.org/10.1016/j.materresbull.2016.12.021.

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33

Shyichuk, Andrii, Sarita S. Câmara, Ingrid T. Weber, Albano N. Carneiro Neto, Luiz A. O. Nunes, Stefan Lis, Ricardo L. Longo, and Oscar L. Malta. "Energy transfer upconversion dynamics in YVO 4 :Yb 3+ ,Er 3+." Journal of Luminescence 170 (February 2016): 560–70. http://dx.doi.org/10.1016/j.jlumin.2015.07.005.

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Xu, Yang, Meng Chen, Zheng-Wei Li, Zhen-Xu Bai, Chao Yang, Li-Yuan Chen, Gang Li, and Yang Liu. "Raman Frequency Conversion of Picosecond Pulses in the YVO 4 Crystal." Chinese Physics Letters 30, no. 8 (August 2013): 084202. http://dx.doi.org/10.1088/0256-307x/30/8/084202.

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35

Kisel, V. E., A. E. Troshin, N. A. Tolstik, V. G. Shcherbitsky, N. V. Kuleshov, V. N. Matrosov, T. A. Matrosova, and M. I. Kupchenko. "Q-switched Yb 3+ :YVO 4 laser with Raman self-conversion." Applied Physics B 80, no. 4-5 (February 16, 2005): 471–73. http://dx.doi.org/10.1007/s00340-005-1749-x.

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36

WU, Ke, Le WANG, Guo-Tang XU, Shi-Bi ZOU, Jie HUANG, Pei-Fu GU, and Pei LIANG. "Hydrothermal Method Synthesis and Characterization of YVO4:Eu3+@YPO4 Core-shell." Journal of Inorganic Materials 27, no. 7 (August 21, 2012): 706–10. http://dx.doi.org/10.3724/sp.j.1077.2012.11476.

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37

Жарков, Д. К., А. Г. Шмелев, А. В. Леонтьев, В. Г. Никифоров, В. С. Лобков, Н. В. Курбатова, М. Х. Алькатани, and Ф. Р. Хеммер. "Влияние условий синтеза на люминесцентные свойства апконверсионных наночастиц YVO 4 :Yb,Er." Известия Российской академии наук. Серия физическая 84, no. 12 (2020): 1746–50. http://dx.doi.org/10.31857/s0367676520120406.

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38

YANG, Hua. "Synthesis, Structure and Photoluminescent Properties of YVO4: Eu Phosphors." University Chemistry 33, no. 10 (2018): 79–84. http://dx.doi.org/10.3866/pku.dxhx201802029.

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39

Wang, Ju An, Yun Hua Xu, Qihong Cen, Xiao Man Zhang, and Ya Ru Cui. "Synthesis and Luminescent Properties of Porous YVO4:Sm Nanoplates." Materials Science Forum 620-622 (April 2009): 541–44. http://dx.doi.org/10.4028/www.scientific.net/msf.620-622.541.

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The present research describes a simple low-temperature synthesis route of fabricating porous YVO4:Sm nanoplates via a chemical co-precipitation method using commercially available Y2O3, NH4VO3, Sm2O3 and ethylene glycol as the reacting precursors. The as-synthesized YVO4:Sm was thermally treated at 300°C and 600°C for 2 h which is much lower than that of the conventional preparation methods. The obtained samples were characterized by FTIR, XRD, TEM and PL. The photoluminescence measurement revealed that the luminescence intensity was significantly increased with increasing annealing temperature.
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Su-Mei, Wang, Du Shi-Feng, Lu Jian, Zhang Dong-Xiang, and Feng Bao-Hua. "Spectroscopic investigation of a new crystal: Nd 3+ ,Yb 3+ :YVO 4." Chinese Physics 16, no. 6 (June 2007): 1786–89. http://dx.doi.org/10.1088/1009-1963/16/6/052.

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Xiu-hua, Lin, and Jiang Bing-xi. "Anisotropy of optical absorption intensity in Tm 3+ doped YVO 4 crystals." Chinese Physics 9, no. 9 (April 2000): 689–94. http://dx.doi.org/10.1088/1009-1963/9/9/011.

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Zheng, Yuhua, Xun Sun, Huijuan Su, Libo Sun, and Caixia Qi. "Monodisperse YVO 4 :Eu 3+ nanospindles: Rapid converted growth and luminescence properties." Materials Research Bulletin 105 (September 2018): 149–53. http://dx.doi.org/10.1016/j.materresbull.2018.04.031.

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Fan, Bin, Shimei Qi, and Wenyu Zhao. "Luminescence properties of YVO 4 :Eu nanocrystals in nanoporous high-silica glass." Optical Materials 76 (February 2018): 329–34. http://dx.doi.org/10.1016/j.optmat.2017.12.055.

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陈, 清明. "Analysis and Application of Negative Refraction of YVO4 Crystal." Applied Physics 09, no. 12 (2019): 504–10. http://dx.doi.org/10.12677/app.2019.912062.

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Beale, Thomas A. W., Roger D. Johnson, Stewart R. Bland, Peter D. Hatton, Laurence Bouchenoir, Andrew T. Boothroyd, and D. Prabhakaran. "Determining Crystal Field Distortions of YVO3 through X-Ray Scattering." Solid State Phenomena 152-153 (April 2009): 147–50. http://dx.doi.org/10.4028/www.scientific.net/ssp.152-153.147.

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We present resonant x-ray scattering experimental data from YVO3. By scattering at the vanadium K edge we are able to observe diffraction from the anisotropic tensor of susceptibility at the Bragg forbidden (010). The resonant energy spectra from these reflections are unusually complex, giving an indication of the crystal field distortions around the vanadium site.
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Никифоров, В. Г. "Безызлучательная релаксация и люминесцентные свойства апконверсионных наночастиц YVO 4 :Yb, Er." Известия Российской академии наук. Серия физическая 85, no. 12 (2021): 1734–40. http://dx.doi.org/10.31857/s0367676521120243.

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Liang, Yu Jun, Rong Liu, Wen Shuai Yan, and Xiao Yong Wu. "Molten Salt Synthesis and Photoluminescence of YVO4:Eu Microcrystalline Phosphors." Advanced Materials Research 66 (April 2009): 65–68. http://dx.doi.org/10.4028/www.scientific.net/amr.66.65.

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Tetragonal phase of YVO4:Eu3+ powders have been successfully synthesized via a molten salt synthesis process. During the process, rare earth nitrates and ammonium vanadate were used as precursors, the mixture of KCl and NaCl as a molten salt. As shown in XRD and SEM, the resultant product was a pure phase of YVO4 without any other impurities. Under the excitation of 326 nm, all the materials show the characteristic emission of Eu3+ which is the strong red emission originating from the 5D0 level, with 5D0→7F2 at 619 nm as the most prominent group.
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Xu, Hai Yan, Ling Xu, Shi Biao Wu, Xu Dong Wang, and Hao Wang. "Synthesis of YVO4 Nanoparticles with Controllable Morphologies by Solvothermal Method." Advanced Materials Research 239-242 (May 2011): 356–59. http://dx.doi.org/10.4028/www.scientific.net/amr.239-242.356.

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YVO4 nanoparticles with various morphologies were tuned directly by hydrothermal treatment in different solutions, including pure water, potassium hydroxide solution, hydrazine hydrate, ethanolamine, triethylamine, and pyridine. X-ray diffraction (XRD), Raman, and transmission electron microscopy (TEM) were utilized to characterize the structure, morphology, and size of the products, which indicated that tetragonal phase YVO4 crystallites displaying rod-like, square, and olivary shapes were obtained. It was found that the selected solvents play an important role in modulating the morphology and confining the size of the obtained products.
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Bao-Shan, Wang, Tan Hui-Ming, Gao Lan-Lan, Peng Ji-Ying, and Miao Jie-Guang. "Compact, Low Threshold Nd 3+ :YVO 4 Self-Raman Laser at 1178 nm." Chinese Physics Letters 23, no. 8 (July 21, 2006): 2095–97. http://dx.doi.org/10.1088/0256-307x/23/8/037.

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Martínez, N., A. Rucci, J. Marcazzó, P. Molina, M. Santiago, and W. Cravero. "Characterization of YVO 4 :Eu 3+ scintillator as detector for Fiber Optic Dosimetry." Radiation Measurements 106 (November 2017): 650–56. http://dx.doi.org/10.1016/j.radmeas.2017.03.015.

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