Description |
1 online resource (193 p.) |
Contents |
Cover -- Half Title -- Title Page -- Copyright Page -- Table of Contents -- Authors -- 1 Introduction -- 1.1 Introduction -- 1.1.1 Perovskite Materials -- 1.1.2 Energy Exclamations Today -- 1.1.3 Titanate Materials in Energy Production -- 1.1.4 Crystal Structure of Titania and Titanate in Energy Materials -- 1.1.5 Importance of Energy Sources and Energy Materials -- 1.1.6 Role of Energy Materials in Energy System -- 1.2 Energy-Harvesting Materials -- 1.2.1 TE Materials -- 1.2.1.1 Organic-Inorganic Hybrid TEs -- 1.2.1.2 TE Inorganic Film: Stretchy TE Device and Micro TE Generator |
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1.2.2 TE Properties of Lanthanide-Doped Titanates -- 1.3 Power-Saving Materials -- 1.4 Perovskite Photonics -- 2 Energy Materials -- 2.1 Role of Activators -- 2.2 Unique Properties of Lanthanides -- 2.3 Preparation Methods and Surface Properties of RE-TiO[sub(2)] -- 2.3.1 Erbium-TiO[sub(2)] -- 2.3.1.1 Morphological Study of TiO[sub(2)]:Er[sup(3+)] -- 2.3.1.2 Crystal Structure of Er-TiO[sub(2)] -- 2.3.1.3 BET Surface Area and Optical Properties of Er-TiO[sub(2)] -- 2.3.1.4 Upconversion Properties of Er-TiO[sub(2)] -- 2.3.1.5 Photocatalytic Properties of Er-TiO[sub(2)] -- 2.3.2 Holmium-TiO[sub(2)] |
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2.3.3 Thulium-TiO[sub(2)] -- 2.3.4 Neodymium-TiO[sub(2)] -- 2.4 The Origin of RE-TiO[sub(2)] Visible Light Photoactivity -- 2.4.1 Basic Principles of the Theoretical Study of Lanthanides-TiO[sub(2)] Photocatalysts -- 2.4.2 Computational Characterization of the Investigated RE-TiO[sub(2)] Structures -- 2.4.3 Anti-Stokes Upconversion Process in the RE-TiO[sub(2)] Mechanism -- 2.5 Conclusion and Perspectives -- 3 Synthesis of Titanate Materials -- 3.1 Hydrothermal Method -- 3.2 Coprecipitation -- 3.3 Sol-gel -- 3.4 Sonochemical -- 3.5 Solution Combustion -- 3.5.1 Role of Fuels -- 3.5.2 Water Content |
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3.5.3 Importance of Gaseous Products -- 3.5.4 Flame Temperature -- 3.5.5 Fuel-to-Oxidizer Ratio -- 3.6 Solid-State Reaction -- 3.7 Pulsed Laser Deposition -- 3.8 Sputtering Method -- 4 Titanate Materials -- 4.1 BaTiO[sub(3)] Multipods -- 4.2 PVDF-HFP-GMA/BaTiO[sub(3)] Nanocomposites -- 4.3 BaTiO[sub(3)]/Polyvinylidene Fluoride (BT/PVDF) Nanocomposites -- 4.4 BaTi[sub(1-x)]M[sub(x)]O[sub(3)] (M=Cr, Mn, Fe, and Co) Nanocrystals -- 4.5 BaTiO[sub(3)] /Polydimethylsiloxane (PDMS) Nanogenerators -- 4.6 CaTiO[sub(3)]:Eu[sup(3+)] Phosphors |
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4.7 Zn[sup(2+)] Ions in BaTiO[sub(3)]: Er[sup(3)]/Yb[sup(3)]+ Nanophosphor -- 4.8 MgTiO[sub(3)]:Mn[sup(4+)] -- 4.9 CaTiO[sub(3)]:Pr[sup(3+@)]SiO[sub(2)] -- 5 Applications of Titanate Materials -- 5.1 BaTiO[sub(3)]: RE Yellow Phosphors an TL Applications -- 5.1.1 X-Ray Diffraction (XRD) of BaTiO[sub(3)]: Dy[sub(3+)] Phosphor -- 5.1.2 TL Glow Curve Studies -- 5.2 Photoluminescence Applications with Specific Titanate Materials -- 5.2.1 (Ba,Sr)TiO[sub(3)]:RE Perovskite Phosphors (RE=Dy, Eu): Lighting, Display, and Related Fields |
Notes |
Description based upon print version of record |
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5.2.2 Yellow-Orange Up-Conversion Emission in Eu[sup(3+)] -Yb[sup(3+)] Co-doped BaTiO[sub(3)] Phosphor |
Subject |
Perovskite materials
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Titanates
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Energy storage -- Materials
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Energy conversion -- Materials
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Perovskite materials.
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Titanates.
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Form |
Electronic book
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Author |
Kadam, Abhijeet R
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Darshan, G. P
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Sharma, S. C
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Nagabhushuna, H
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ISBN |
9781000916799 |
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1000916790 |
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9781000916751 |
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1000916758 |
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