Advanced Optical Materials
Die Inhaltsverzeichnisse werden automatisch erzeugt und basieren auf den im Index des TIB-Portals verfügbaren Einzelnachweisen der enthaltenen Beiträge. Die Anzeige der Inhaltsverzeichnisse kann daher unvollständig oder lückenhaft sein.
Inhaltsverzeichnis
- 415
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Nanophosphors: Persistent and Photostimulated Red Emission in CaS:Eu2+,Dy3+ Nanophosphors (Advanced Optical Materials 4/2015)Rodríguez Burbano, Diana C. / Sharma, Suchinder K. / Dorenbos, Pieter et al. | 2015
- 416
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Phosphors: Tuning the Luminescence of Phosphors: Beyond Conventional Chemical Method (Advanced Optical Materials 4/2015)Bai, Gongxun / Tsang, Ming‐Kiu / Hao, Jianhua et al. | 2015
- 417
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Contents: (Advanced Optical Materials 4/2015)| 2015
- 422
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Optical Materials for Spectral ManagementWehrspohn, R. B. / Schweizer, S. et al. | 2015
- 423
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Solid‐State Lighting: Photoluminescent Materials for Solid‐State Lighting: State of the Art and Future Challenges (Advanced Optical Materials 4/2015)Meyer, Jörg / Tappe, Frank et al. | 2015
- 424
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Photoluminescent Materials for Solid‐State Lighting: State of the Art and Future ChallengesMeyer, Jörg / Tappe, Frank et al. | 2015
- 431
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Tuning the Luminescence of Phosphors: Beyond Conventional Chemical MethodBai, Gongxun / Tsang, Ming‐Kiu / Hao, Jianhua et al. | 2015
- 463
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Recent R&D Trends in Inorganic Single‐Crystal Scintillator Materials for Radiation DetectionNikl, Martin / Yoshikawa, Akira et al. | 2015
- 482
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The Fluoride Host: Nucleation, Growth, and Upconversion of Lanthanide‐Doped NanoparticlesNaccache, Rafik / Yu, Qing / Capobianco, John A. et al. | 2015
- 510
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Upconversion for Photovoltaics – a Review of Materials, Devices and Concepts for Performance EnhancementGoldschmidt, Jan Christoph / Fischer, Stefan et al. | 2015
- 536
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Fluorescent Red‐Emitting BODIPY Oligofluorene Star‐Shaped Molecules as a Color Converter Material for Visible Light CommunicationsSajjad, Muhammad T. / Manousiadis, Pavlos P. / Orofino, Clara et al. | 2015
- 541
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Highly Efficient and Broadband Upconversion of NIR Sunlight with Neodymium‐Doped Glass CeramicsSkrzypczak, Ulrich / Seifert, Gerhard / Schweizer, Stefan et al. | 2015
- 546
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Investigations of the Electronic Structure and Bandgap of the Next‐Generation LED‐Phosphor Sr[LiAl3N4]:Eu2+—Experiment and CalculationsTolhurst, Thomas M. / Boyko, Teak D. / Pust, Philipp et al. | 2015
- 551
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Persistent and Photostimulated Red Emission in CaS:Eu2+,Dy3+ NanophosphorsRodríguez Burbano, Diana C. / Sharma, Suchinder K. / Dorenbos, Pieter et al. | 2015
- 558
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Upconversion Dynamics in Er3+‐Doped Gd2O2S: Influence of Excitation Power, Er3+ Concentration, and DefectsMartín‐Rodríguez, Rosa / Rabouw, Freddy T. / Trevisani, Mattia et al. | 2015
- 568
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Photonic Crystal‐Driven Spectral Concentration for Upconversion PhotovoltaicsMarques‐Hueso, Jose / Peretti, Romain / Abargues, Rafael et al. | 2015
- 575
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Lanthanide‐Doped Fluoride Core/Multishell Nanoparticles for Broadband Upconversion of Infrared LightShao, Wei / Chen, Guanying / Ohulchanskyy, Tymish Y. et al. | 2015
- 583
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Novel Two‐Step Topotactic Transformation Synthetic Route Towards Monodisperse LnOF:Re,3+ (Ln = Y, Pr–Lu) Nanocrystals with Down/Upconversion Luminescence PropertiesShao, Baiqi / Zhao, Qi / Lv, Wenzhen et al. | 2015
- 594
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Photovoltaics: Photonic Crystal‐Driven Spectral Concentration for Upconversion Photovoltaics (Advanced Optical Materials 4/2015)Marques‐Hueso, Jose / Peretti, Romain / Abargues, Rafael et al. | 2015
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Masthead: (Advanced Optical Materials 4/2015)| 2015