Ikhmayies / Kurt | Advances in Optoelectronic Materials | E-Book | www.sack.de
E-Book

E-Book, Englisch, 276 Seiten, eBook

Reihe: Advances in Material Research and Technology

Ikhmayies / Kurt Advances in Optoelectronic Materials


1. Auflage 2021
ISBN: 978-3-030-57737-7
Verlag: Springer International Publishing
Format: PDF
 Kopierschutz: 1 - PDF Watermark

E-Book, Englisch, 276 Seiten, eBook

Reihe: Advances in Material Research and Technology

ISBN: 978-3-030-57737-7
Verlag: Springer International Publishing
Format: PDF
 Kopierschutz: 1 - PDF Watermark

This book focuses on the progress in optoelectronic materials research and technologies, presenting reviews and original works on the theory, fabrication, characterization, and applications of optoelectronic materials. The chapters discuss preparation and properties of several optoelectronic materials, such as ZnO, SnO2, Zn1-XSnXO, BaTiO3, GaAs, GaP, ZnSe, and NaAlSi. The structural, optical, vibrational, and magnetic properties are discussed, in addition to transport and phase transformations.


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Zielgruppe

Research

Autoren/Hrsg.

Ikhmayies, Shadia Jamil
Kurt, Hatice Hilal

Weitere Infos & Material

Chapter One: A STRUCTURAL AND OPTICAL LOOK AT FUNCTIONAL MATERIALS Author: Mustafa Kemal Ozturk Abstract1. INTRODUCTION2. THEORICAL OPTICAL APPROACH TO FUNCTIONAL MATERIALS2.1. Kramers-Kronig Equations2.2. Optical properties of alloys2.3. Dielectric constants of alloys2.4. Refraction and absorbtion coefficients of Alloys2.5. Absorbtion coefficient2.6. Lost Function Calculation3. GROWTH TECHNIQUES OF FUNCTIONAL CRYSTAL MATERIALS3.1. Bulk Crystal Growing Techniques3.2. Bridgman Technique3.3. Czochralski Technique3.4. Kyropoulos Technique3.5. Molecular Beam Epitaxy (MBE) 3.6. Metal-Organic Chemical Vapor Deposition (MOCVD) 3.7. Chemical Vapor Deposition (CVD) 3.8. Vapor Phase Epitaxy (VPE) 3.9. Liquid Phase Epitaxy (LPE) 4. APPLICATIONS AND ANALYSIS METHODS OF FUNCTIONAL MATERIALS4.1. Scanning Electron Microscopy (SEM) 4.2. X-ray diffraction and spectroscopy techniques4.3 X-Ray Diffraction (XRD) 4.4 X- Ray Reflectivity (XRR) 4.6. X-Ray florescence (XRF) 4.7. Second Ion Mass Spectroscopy (SIMS) 4.8. Stress measurements4.9. Texture Calculation4.10. Small and Wide-Angle X-ray Scattering (SAXS and WAXS) 4.11. Atomic Force Microscopy (AFM) 4.12. Spectroscopic Elipsometry (SE) 4.13. Photoluminesance Spectroscopy (PL) 4.14. Raman Spectroscopy4.15. Fourier-transform infrared spectroscopy (FTIR) 4.16. Ultraviolet–visible spectroscopy (UV-Vis) 5. CONCLUSION ACKNOWLEDGEMENTS
Chapter Two:  Two-Dimensional Materials for Next Generation Nanoelectronics and Optoelectronics: Advances and Trends Author: Ling Zhi Peng
Abstract1. Introduction2. History – 2D materials 3. Underlying physics3.1 Graphene3.2 Hexagonal boron nitride3.3 Molybdenum disulfide3.4 Phosphorene4. Novel 2D device integration 4.1 Graphene-based applications4.2 Hexagonal boron nitride applications4.3 Molybdenum disulfide applications4.4 Black phosphorus applications4.5 Flexible next-generation device integration – A complete 2D approach5. Progress towards commercialization6. Conclusion References
Chapter Three: An Ab-initio study of structural, elastic, electronic, vibration and optical properties of NaAlSi semiconducting compound  for optoelectronic applications Author: Yasemin Ö. Çiftci 
Abstract1. Introduction2. Method of calculation3. Results and discussion3.1 Structural and electronic properties3.2 Elastic properties3.3 Phonon dispersion curves3.4 Optical properties4. Summary and conclusion References
Chapter Four:  OPTOELECTRONIC PROPERTIES OF GaAs, GaP and ZnSe CATHODES IN A PLASMA-SEMICONDUCTOR STRUCTURES Author: Hatice Hilal Kurt
Abstract1. INTRODUCTION2. THEORY3. EXPERIMENTAL4. RESULT AND DISCUSSIONS5. CONCLUSIONS ACKNOWLEDGEMENTS REFERENCES
Chapter Five:Optoelectronic Properties of ZnO Thin Films Prepared by the Spray Pyrolysis Method on Glass SubstratesAuthor: Shadia Jamil Ikhmayies
1. Abstract2. Introduction3. Micro Structure4. Transmittance and Absorbance5. Band Gap Energy 6. Refractive Index and Extinction Coefficient7. Dielectric Constant8. Photoluminescence9. ConclusionsReferencesChapter Six:
The Optical Properties of SnO2:F Thin Films Prepared by the Spray Pyrolysis Method on Glass SubstratesAuthor: Shadia Jamil Ikhmayies
1. Abstract2. Introduction3. Films’ Preparation4. Transmittance and Absorbancea. Influence of Substrate Temperatureb. Influence of Film Thickness5. Bandgap Energy and Urbach Tailinga. Influence of Substrate Temperatureb. Influence of Film Thickness6. Refractive Index and Extinction Coefficients7. Dielectric Constant8. Optical Conductivity9. Energy Loss10. ConclusionsReferences
Chapter Seven:  NO GAS SENSING PROPERTIES OF Zn1-XSnXO NANOSTRUCTURES UNDER UV LIGHT IRRADIATION  Authors: Irmak Karaduman , Ali Orkun Çagirtekin , Tugba Çorlu , Memet Ali Yildirim , Aytunç Ates , Selim Acar
Abstract1. Introduction2. Different Producing Methods of ZnO Nanostructure Thin Films2.1 Dopants in ZnO nanostructure thin films3. Gas Sensing Applications Using ZnO Nanostructure Thin Films3.1 The effect of operating temperature 3.2 The effect of surface morphology3.3 The effect of annealing process4. Experimental Details5. Results and Discussions1.1 Structural analysis1.2 Surface morphological analysis  1.3 Compositional analysis  1.4 Optical analysis6. UV light irradiation for gas sensing applications7. CONCLUSION REFERENCES
Chapter Eight:  Optical Refractive Properties, Birefringence and Order Paratemeter at the Direct Smectic A – Isotropic and Reverse Isotropic – Smectic A Phase Transitions  Author: Arif Nesrullajev (Nesrullazade)
Abstract2. Introduction3. Theoretical Background4. Experimental4.1 Materials4.2 Samples4.3 Methods5. Results and Discussion6. Conclusion References
Chapter Nine:  CHARGE TRANSPORT MECHANISMS IN THE SILVER-MODIFIED-ZEOLITE POROUS MICROSTRUCTURE Author: Bakhtiyar Salamov
Abstract1. ELECTRO-OPTICAL PROPERTIES OF POROUS ZEOLITE CATHODE IN THE GAS DISCHARGE ELECTRONIC DEVICES FOR PLASMA LIGHT SOURCE APPLICATIONS2. NEW APPROACH FOR CHARGE TRANSPORT MECHANISMS IN THE ATMOSPHERIC PRESSURE COLD PLASMA DEVICE WITH POROUS ZEOLITE2.1 The pressure-driven dc conduction mechanisms2.2 The enhanced effect of electrical field on dc conduction2.3 Stable discharge glow and optimal operation regions3. PECULIARITIES OF THE DIELECTRIC RESPONSE OF THE SILVER-MODIFIED-ZEOLITE POROUS MICROSTRUCTURE3.1 Characterization of zeolite3.2 Theoretical Model3.3 The effect of the Ag concentration to the conduction3.4 Peculiarities of the dielectric properties Acknowledgements REFERENCES
Chapter Ten:  Magnetoelectricity in Ion Implanted Ferroelectric Crystals Author: F.A. Mikailzade
Abstract1. PHYSICAL PROPERTIES OF FERROICS AND MULTIFERROICS 1.1. Magnetoelectric effect1.2. Multiferroic materials1.3. Single phase multiferroics1.4. Composite multiferroics2. MATERIALS AND EXPERIMENTAL METHODS FOR INVESTIGATIONS OF THE NOVEL MULTIFERROIC COMPOSITES.2.1. Ferroelectric crystals for studies.2.2. Ion implantation technique2.3. Magnetic measurement techniques2.4. Dielectric constant measurements3. FERROMAGNETIC RESONANCE AND MAGNETIZATION STUDIES 3.1. Co implanted BaTiO3 crystal3.2. Fe implanted BaTiO3 crystal3.3. Co implanted TlInS2 and TlGaSe2crystals4. MAGNETOELECTRIC EFFECTS4.1. Co nad Fe implanted BaTiO3 crystal4.2. Co implanted TlInS2 and TlGaSe2 crystals5. CONCLUSION ACKNOWLEDGMENT REFERENCES

Dr. Shadia J. Ikhmayies received her Ph.D. in the field of CdS/CdTe thin film solar cells from the University of Jordan in 2002. Her research focuses on producing and characterizing semiconductor thin films and thin film CdS/CdTe solar cells. Dr. Ikhmayies is also involved in characterizing quartz in Jordan for the extraction of silicon for solar cells and characterizing different materials using computation. She is the founder and editor of the ebook series Advances in Material Research and Technology, the editor-in-chief of the book Advances in Silicon Solar Cells, and the book Advances in II-VI Compounds Suitable for Solar Cell Applications. Shadia is a member of The Minerals, Metals &Materials Society (TMS), where she serves as organizer of several symposiums and editor of several Proceedings, and a member of the World Renewable Energy Network (WREN). She is a member of the international organizing committee and the international scientific committee of the European Conference on Renewable Energy Systems (ECRES2015- ECRES2020), and a member of the editorial board of the International Journal of Materials and Chemistry, Journal of Energy Systems, Current Materials Science, and the Journal of Amasya University the Institute of Sciences and Technology. 

Dr. Hatice Hilal Kurt received her PhD degree in Physics from Gazi University, Ankara, Turkey in 2004. Since 2015 she is a Professor  at the Science Faculty in Gazi University. She is a field editor in the “Journal of Energy Sytems” in the field of Nano-materials & characterization. She is a member of the international organizing committee and the international scientific committee of the “European Conference on Renewable Energy Systems (ECRES2015- ECRES2020)”. Her professional interests include IR photodetectors, semiconductors, novel Materials, plasma and process diagnostics, plasma-surface interactions, and defects.



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