Works matching DE "CHALCOGENIDE glass"
Results: 486
Experimental Study on Shear Thickening Polishing of ZnS Glass.
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- Coatings (2079-6412), 2025, v. 15, n. 2, p. 184, doi. 10.3390/coatings15020184
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Photo‐Curing Vis‐IR Hybrid Fresnel Lenses with High Refractive Index.
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- Macromolecular Chemistry & Physics, 2021, v. 222, n. 24, p. 1, doi. 10.1002/macp.202100311
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Direct and Indirect Evolution of Photoluminescent Semiconductor CdS Magic‐Size Clusters through Their Precursor Compounds.
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- Angewandte Chemie, 2023, v. 135, n. 28, p. 1, doi. 10.1002/ange.202304329
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Study of nucleation in a SeTe chalcogenide glass by microscopy and differential scanning calorimetry.
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- Journal of Materials Science, 2015, v. 50, n. 11, p. 3854, doi. 10.1007/s10853-014-8764-4
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Composition dependence of some thermo-physical properties of multi-component SeTeSnBi (0 ≤ x ≤ 6) chalcogenide glasses.
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- Journal of Materials Science, 2015, v. 50, n. 1, p. 210, doi. 10.1007/s10853-014-8580-x
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Photoinduced transformations in (As<sub>1–x</sub>Bi<sub>x</sub>)<sub>2</sub>S<sub>3</sub> glass observed by Raman spectroscopy.
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- Journal of Raman Spectroscopy, 2024, v. 55, n. 5, p. 637, doi. 10.1002/jrs.6658
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Study of vibrational properties of Bi<sub>2 − x</sub>Mn<sub>x</sub>Te<sub>3</sub> nanocrystals in host glass: Effect of xMn‐concentration.
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- Journal of Raman Spectroscopy, 2022, v. 53, n. 1, p. 95, doi. 10.1002/jrs.6255
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Thermal conductivity of Ge<sub>x</sub>Sb(As)<sub>y</sub>Se<sub>100-x-y</sub> glasses measured by Raman scattering spectra.
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- Journal of Raman Spectroscopy, 2014, v. 45, n. 5, p. 377, doi. 10.1002/jrs.4462
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A FIRST-PRINCIPLES INVESTIGATION OF HETEROSTRUCTURES CONSISTING OF HALIDE PEROVSKITE CsPbI3 AND LEAD CHALCOGENIDE FOR OPTOELECTRONIC APPLICATIONS.
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- Journal of Structural Chemistry, 2021, v. 62, n. 5, p. 671, doi. 10.1134/S0022476621050024
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晶体硅太阳能电池正面银浆的作用机制.
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- Precious Metals / Guijinshu, 2022, v. 43, n. 1, p. 91
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What Differentiates Dielectric Oxides and Solid Electrolytes on the Pathway toward More Efficient Energy Storage?
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- Batteries, 2022, v. 8, n. 11, p. 232, doi. 10.3390/batteries8110232
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Two‐Dimensional Metal Chalcogenide Heterostructures: Designed Growth and Emerging Novel Applications (Adv. Mater. Interfaces 15/2021).
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- Advanced Materials Interfaces, 2021, v. 8, n. 15, p. 1, doi. 10.1002/admi.202170082
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Two‐Dimensional Metal Chalcogenide Heterostructures: Designed Growth and Emerging Novel Applications.
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- Advanced Materials Interfaces, 2021, v. 8, n. 15, p. 1, doi. 10.1002/admi.202100515
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Turning Catalysts on by Light‐Induced Stress: When Red Means Go.
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- ChemElectroChem, 2019, v. 6, n. 13, p. 3264, doi. 10.1002/celc.201900393
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Compressibility, Metallization, and Relaxation in Nonstoichiometric Chalcogenide Glass g-As<sub>3</sub>Te<sub>2</sub> at High Hydrostatic Pressure versus "Classic" g-As<sub>2</sub>Te<sub>3</sub> Glass.
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- Journal of Experimental & Theoretical Physics, 2023, v. 136, n. 4, p. 519, doi. 10.1134/S1063776123040131
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High-precision measurements of the compressibility of chalcogenide glasses at a hydrostatic pressure up to 9 GPa.
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- Journal of Experimental & Theoretical Physics, 2016, v. 123, n. 2, p. 308, doi. 10.1134/S1063776116060108
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Anomalous X-ray Scattering on Semiconducting Glasses at ESRF: Review in Recent Fifteen Years.
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- Zeitschrift für Physikalische Chemie, 2016, v. 230, n. 3, p. 313, doi. 10.1515/zpch-2015-0653
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A comprehensive investigation of Bi<sub>2</sub>O<sub>3</sub> on the physical, structural, optical, and electrical properties of K<sub>2</sub>O.ZnO.V<sub>2</sub>O<sub>5</sub>.B<sub>2</sub>O<sub>3</sub> glasses.
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- Scientific Reports, 2024, v. 14, n. 1, p. 1, doi. 10.1038/s41598-024-58567-w
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THE QUATERNARY CHALCOGENIDE COMPOUND Ag<sub>2</sub>FeGeSe<sub>4</sub>: A REVISION OF THEIR CRYSTAL STRUCTURE AND MAGNETIC PROPERTIES.
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- Periódico Tchê Química, 2021, v. 18, n. 38, p. 85, doi. 10.52571/PTQ.v18.n38.2021.07_DELGADO_pgs_85_99.pdf
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The Study of Physical Parameters of Pb Modified Germanate Chalcogenide Glass.
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- Journal of Nano- & Electronic Physics, 2013, v. 5, n. 4, p. 04076-1
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Dielectric Properties and AC Conductivity Measurements of Amorphous Ge<sub>15</sub>Se<sub>85</sub> Glass.
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- Journal of Nano- & Electronic Physics, 2013, v. 5, n. 2, p. 02019-1
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Kinetics of Amorphous-Crystalline Transformation of Some Se-Te-In Chalcogenide Glasses Using Gao and Wang Model.
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- Journal of Nano- & Electronic Physics, 2013, v. 5, n. 2, p. 02017-1
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Recent Advances in the Fabrication and Functionalization of Flexible Optical Biosensors: Toward Smart Life-Sciences Applications.
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- Biosensors (2079-6374), 2021, v. 11, n. 4, p. 107, doi. 10.3390/bios11040107
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Mid-infrared filamentation-induced supercontinuum in As-S and an As-free Ge-S counterpart chalcogenide glasses.
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- Applied Physics B: Lasers & Optics, 2015, v. 121, n. 4, p. 433, doi. 10.1007/s00340-015-6249-z
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Fabrication and characterization of GeSbS chalcogenide glass for photonic crystal fibers.
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- Applied Physics B: Lasers & Optics, 2014, v. 116, n. 3, p. 653, doi. 10.1007/s00340-013-5748-z
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A New Design of As<sub>2</sub>Se<sub>3</sub> Chalcogenide Glass Photonic Crystal Fiber with Ultra-Flattened Dispersion in Mid-Infrared Wavelength Range.
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- Majlesi Journal of Electrical Engineering, 2014, v. 8, n. 4, p. 9
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Laser ablation generation of clusters from As-Te mixtures, As-Te glass nano-layers and from Au-As-Te nano-composites. Quadrupole ion trap time-of-flight mass spectrometry.
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- Rapid Communications in Mass Spectrometry: RCM, 2015, v. 29, n. 11, p. 1000, doi. 10.1002/rcm.7193
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Viscosity of chalcogenide glass-formers.
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- International Materials Reviews, 2020, v. 65, n. 2, p. 63, doi. 10.1080/09506608.2018.1564545
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1.5 μm photoluminescence and upconversion photoluminescence in GeGaAsS:Er chalcogenide glass.
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- Pure & Applied Chemistry, 2019, v. 91, n. 11, p. 1757, doi. 10.1515/pac-2018-1231
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Electrical Impedance Spectroscopy: "First Principles" analysis and simulations of electrical response in the classical range of frequencies below 1 THz and the resulting new role of Electrical Impedance Spectroscopy in electrical characterisation within Condensed Matter Physics
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- Pure & Applied Chemistry, 2019, v. 91, n. 11, p. 1837, doi. 10.1515/pac-2018-1107
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Viscosity of Se-Te glass-forming system.
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- Pure & Applied Chemistry, 2015, v. 87, n. 3, p. 239, doi. 10.1515/pac-2014-0901
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Ionic conductivity study of LiI-Ga<sub>2</sub>S<sub>3</sub>-GeS<sub>2</sub> chalcogenide glasses using a random-walk approach.
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- Pure & Applied Chemistry, 2015, v. 87, n. 3, p. 249, doi. 10.1515/pac-2014-1005
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小口径双非球面硫系玻璃镜片精密热压成形 模具制造.
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- China Mechanical Engineering, 2022, v. 33, n. 2, p. 217, doi. 10.3969/j.jissn.1004-132X.2022.02.012
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A study of the crystallization kinetics of Sb-Se-Ge and Sb-Se-Ge-In chalcogenide glasses for applications as phase change materials.
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- Phase Transitions, 2023, v. 96, n. 11/12, p. 764, doi. 10.1080/01411594.2023.2262704
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Thermal kinetics and glass stability criteria of the Se<sub>70</sub>Te<sub>20</sub>Cd<sub>10</sub> chalcogenide glass.
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- Phase Transitions, 2023, v. 96, n. 8, p. 584, doi. 10.1080/01411594.2023.2229932
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Concentration-dependent enhancement of nonlinear optical properties in Ge-Te-Bi nano colloidal solutions.
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- Phase Transitions, 2023, v. 96, n. 5, p. 374, doi. 10.1080/01411594.2023.2186231
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Erbium-doped GeSbSe glassy semiconductors and theoretical analysis of constraint, electronic and thermal properties.
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- Phase Transitions, 2021, v. 94, n. 12, p. 945, doi. 10.1080/01411594.2021.1988597
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Crystallization kinetics of Pb<sub>12</sub>Ge<sub>12</sub>Se<sub>76</sub> chalcogenide glass.
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- Phase Transitions, 2020, v. 93, n. 3, p. 323, doi. 10.1080/01411594.2020.1723017
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Ac electrical conductivity and dielectric relaxation behavior of amorphous Selinum<sub>36</sub> Antimony<sub>31</sub>Cubber<sub>33</sub> thin films.
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- Phase Transitions, 2019, v. 92, n. 11, p. 1031, doi. 10.1080/01411594.2019.1679370
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Thermal stability and crystallization kinetics of Ge<sub>13</sub>In<sub>8</sub>Se<sub>79</sub> chalcogenide glass.
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- Phase Transitions, 2019, v. 92, n. 7, p. 667, doi. 10.1080/01411594.2019.1619178
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Crystallization kinetics and Avrami index of Sb-doped Se-Te-Sn chalcogenide glasses.
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- Phase Transitions, 2018, v. 91, n. 5, p. 490, doi. 10.1080/01411594.2018.1431643
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On the variation of activation energy for amorphous–crystallization phase transition in Se–Te–Sn chalcogenide glasses using iso-conversional analysis.
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- Phase Transitions, 2017, v. 90, n. 11, p. 1101, doi. 10.1080/01411594.2017.1318442
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Crystallization kinetics and thermal stability in Se 85-x Te 15 Sb x chalcogenide glasses.
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- Phase Transitions, 2016, v. 89, n. 11, p. 1029, doi. 10.1080/01411594.2015.1136912
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Study of crystallization kinetics of Se 77.5 Te 15 Sb 7.5 glass using isoconversional models.
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- Phase Transitions, 2015, v. 88, n. 12, p. 1236, doi. 10.1080/01411594.2015.1058380
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Light-induced metastable defects in a-Se 90 X 10 (X = Sb, In and Ag) thin films.
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- Phase Transitions, 2015, v. 88, n. 9, p. 939, doi. 10.1080/01411594.2015.1031665
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Linear and nonlinear optical properties of new Se-based quaternary Se–Sn–(Bi,Te) chalcogenide thin films.
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- Phase Transitions, 2015, v. 88, n. 2, p. 109, doi. 10.1080/01411594.2014.961152
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Electrical properties of MWCNT-composite (Se 80 Te 20 ) 100− x Ag x (0 ≤ x ≤ 4) chalcogenide glasses.
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- Phase Transitions, 2014, v. 87, n. 2, p. 148, doi. 10.1080/01411594.2013.803285
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Calorimetric study of specific heat in glassy Se–Te–Sn–Bi system using MDSC technique: effect of Bi incorporation.
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- Phase Transitions, 2013, v. 86, n. 10, p. 971, doi. 10.1080/01411594.2012.734305
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Preparation of chalcogenide glass fiber using an improved extrusion method.
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- Optical Engineering, 2016, v. 55, n. 5, p. 1, doi. 10.1117/1.OE.55.5.056114
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Nonlinear optical response and heating of chalcogenide glasses upon irradiation by the ultrashort laser pulses.
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- Optical Engineering, 2014, v. 53, n. 7, p. 1, doi. 10.1117/1.OE.53.7.071812
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