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11 Terakawa, Shigemi Structure and Electronic Properties of Ultrathin In Films on Si(111) I12315 2022 Book  
12 Geetha, K Recent Trends in Materials I12298 2022 Book  
13 Erdem, Onur Oriented Self-Assembly of Colloidal Semiconductor Nanoplatelets on Liquid Interfaces I12293 2022 Book  
14 Andrejevic, Nina Machine Learning-Augmented Spectroscopies for Intelligent Materials Design I12242 2022 Book  
15 Weston, Astrid Atomic and Electronic Properties of 2D Moir?? Interfaces I12241 2022 Book  
16 Lyzwa, Fryderyk Phononic and Electronic Excitations in Complex Oxides Studied with Advanced Infrared and Raman Spectroscopy Techniques I12237 2022 Book  
17 Meyer, Ernst Scanning Probe Microscopy I11811 2021 eBook  
18 Osgood jr., Richard Principles of Photonic Integrated Circuits I11798 2021 eBook  
19 Parinov, Ivan A Physics and Mechanics of New Materials and Their Applications I11777 2021 eBook  
20 Yoshitake, Michiko Work Function and Band Alignment of Electrode Materials I11698 2021 eBook  
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11.    
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TitleStructure and Electronic Properties of Ultrathin In Films on Si(111)
Author(s)Terakawa, Shigemi
PublicationSingapore, 1. Imprint: Springer 2. Springer Nature Singapore, 2022.
DescriptionXIV, 76 p. 42 illus., 39 illus. in color : online resource
Abstract NoteThis book reports the establishment of a single-atomic layer metal of In and a novel (In, Mg) ultrathin film on Si(111) surfaces. A double-layer phase of In called ???rect??? has been extensively investigated as a two-dimensional metal. Another crystalline phase called ???hex??? was also suggested, but it had not been established due to difficulty in preparing the sample. The author succeeded in growing the large and high-quality sample of the hex phase and revealed that it is a single-layer metal. The author also established a new triple-atomic layer (In, Mg) film with a nearly freestanding character by Mg deposition onto the In double layer. This work proposes a novel method to decouple ultrathin metal films from Si dangling bonds. The present study demonstrates interesting properties of indium itself, which is a p-block metal both with metallicity and covalency. In this book, readers also see principles of various surface analysis techniques and learn how to use them and analyze the results in the real systems. This book is useful to researchers and students interested in surface science, particularly ultrathin metal films on semiconductor surfaces
ISBN,Price9789811968723
Keyword(s)1. Characterization and Analytical Technique 2. Density Functional Theory 3. Density functionals 4. EBOOK 5. EBOOK - SPRINGER 6. INORGANIC CHEMISTRY 7. Materials???Analysis 8. METALS 9. Metals and Alloys 10. Surface and Interface and Thin Film 11. Surfaces (Physics) 12. Surfaces (Technology) 13. Surfaces, Interfaces and Thin Film 14. THIN FILMS
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12.     
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TitleRecent Trends in Materials : Select Proceedings of ICTMIM 2022
Author(s)Geetha, K;Gonzalez-Longatt, Francisco M;Wee, Hui-Ming
PublicationSingapore, 1. Imprint: Springer 2. Springer Nature Singapore, 2022.
DescriptionXIV, 488 p. 284 illus., 221 illus. in color : online resource
Abstract NoteThis book presents the select proceedings of 4th International Conference on Trends in Material Science and Inventive Materials (ICTMIM 2022). Various topics covered in this book are nanotechnology in materials science, green and sustainable materials, semiconductor & electronic materials and devices, bio electronic materials and sensors, thin films, materials surface and interfaces, modern electronic materials, multilayered structures and composite materials, quantum-sized structures and nanocrystals, electronic biosensors, MEMS and sensors, light emitting materials, nanomaterials, opto-electronic materials, microwave and antenna, nanostructure fabrication and self-assembly, self-healable and stretchable configurations, data-driven materials design, advanced charge transfer and suitable interfaces, metallization and superconductivity. Given the contents, the book will be useful for students, researchers and professionals working in the area of material science and engineering
ISBN,Price9789811953958
Keyword(s)1. Catalysis 2. EBOOK 3. EBOOK - SPRINGER 4. FORCE AND ENERGY 5. MATERIALS 6. Materials for Devices 7. Materials for Energy and Catalysis 8. NANOTECHNOLOGY 9. OPTICAL MATERIALS 10. Surfaces (Technology) 11. Surfaces, Interfaces and Thin Film 12. THIN FILMS
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13.     
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TitleOriented Self-Assembly of Colloidal Semiconductor Nanoplatelets on Liquid Interfaces : Methods and Applications
Author(s)Erdem, Onur;Demir, Hilmi Volkan
PublicationSingapore, 1. Imprint: Springer 2. Springer Nature Singapore, 2022.
DescriptionVI, 76 p. 39 illus., 35 illus. in color : online resource
Abstract NoteThis book highlights the fabrication of orientation-controlled colloidal quantum well (nanoplatelet) thin films using liquid interface self-assembly. The book details methods for orientation-controlled deposition of CdSe core nanoplatelets for characterization of directional energy transfer in nanoplatelets and layer-by-layer construction of CdSe/CdZnS core/shell nanoplatelets to create optically active waveguides with precisely tunable thickness and excellent uniformity across device scale. It also provides a future outlook for construction of large-scale two- and three-dimensional nanoplatelet superstructures and their incorporation into device fabrication
ISBN,Price9789811970528
Keyword(s)1. Applied and Technical Physics 2. Colloids 3. EBOOK 4. EBOOK - SPRINGER 5. LIQUID CRYSTALS 6. OPTOELECTRONIC DEVICES 7. PHYSICS 8. QUANTUM PHYSICS 9. Surfaces (Technology) 10. Surfaces, Interfaces and Thin Film 11. THIN FILMS
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14.     
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TitleMachine Learning-Augmented Spectroscopies for Intelligent Materials Design
Author(s)Andrejevic, Nina
PublicationCham, 1. Imprint: Springer 2. Springer International Publishing, 2022.
DescriptionXII, 97 p. 29 illus., 28 illus. in color : online resource
Abstract NoteThe thesis contains several pioneering results at the intersection of state-of-the-art materials characterization techniques and machine learning. The use of machine learning empowers the information extraction capability of neutron and photon spectroscopies. In particular, new knowledge and new physics insights to aid spectroscopic analysis may hold great promise for next-generation quantum technology. As a prominent example, the so-called proximity effect at topological material interfaces promises to enable spintronics without energy dissipation and quantum computing with fault tolerance, yet the characteristic spectral features to identify the proximity effect have long been elusive. The work presented within permits a fine resolution of its spectroscopic features and a determination of the proximity effect which could aid further experiments with improved interpretability. A few novel machine learning architectures are proposed in this thesis work which leverage the case when the data is scarce and utilize the internal symmetry of the system to improve the training quality. The work sheds light on future pathways to apply machine learning to augment experiments
ISBN,Price9783031148088
Keyword(s)1. EBOOK 2. EBOOK - SPRINGER 3. ELECTRONIC DEVICES 4. MACHINE LEARNING 5. SOLID STATE PHYSICS 6. SPECTROSCOPY 7. SPECTRUM ANALYSIS 8. Surfaces (Technology) 9. Surfaces, Interfaces and Thin Film 10. THIN FILMS
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15.     
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TitleAtomic and Electronic Properties of 2D Moir?? Interfaces
Author(s)Weston, Astrid
PublicationCham, 1. Imprint: Springer 2. Springer International Publishing, 2022.
DescriptionXIV, 140 p. 91 illus., 86 illus. in color : online resource
Abstract NoteThis thesis provides the first atomic length-scale observation of the structural transformation (referred to as lattice reconstruction) that occurs in moir?? superlattices of twisted bilayer transition metal dichalcogenides (TMDs) at low (?? < 2??) twist angles. Studies using Scanning transmission electron microscopy (STEM) were limited due to the complexity of the (atomically-thin) sample fabrication requirements. This work developed a unique way to selectively cut and re-stack monolayers of TMDs with a controlled rotational twist angle which could then be easily suspended on a TEM grid to meet the needs of the atomically thin sample requirements. The fabrication technique enabled the study of the two common stacking-polytypes including 3R and 2H (using MoS2 and WS2 as the example) as well as their structural evolution with decreasing twist-angle. Also reported is a comprehensive investigation of electronic properties using scanning probe microscopy and electrical transport measurements of the artificially-engineered structures. These and other studies highlight the unique intrinsic properties of TMDs and their potential application in the development of the next generation of optoelectronics
ISBN,Price9783031120930
Keyword(s)1. EBOOK 2. EBOOK - SPRINGER 3. Electronic materials 4. Electronics???Materials 5. Materials???Microscopy 6. MICROSCOPY 7. OPTICAL MATERIALS 8. OPTOELECTRONIC DEVICES 9. Surfaces (Technology) 10. Surfaces, Interfaces and Thin Film 11. THIN FILMS
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16.     
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TitlePhononic and Electronic Excitations in Complex Oxides Studied with Advanced Infrared and Raman Spectroscopy Techniques
Author(s)Lyzwa, Fryderyk
PublicationCham, 1. Imprint: Springer 2. Springer International Publishing, 2022.
DescriptionXXIII, 147 p. 57 illus., 56 illus. in color : online resource
Abstract NoteThis PhD thesis reports on investigations of several oxide-based materials using advanced infrared and Raman spectroscopy techniques and in combination with external stimuli such as high magnetic or electric field, sptial confinement in thin film heterostructures and the radiation with UV light. This leads to new results in the fields of superconductivity, electronic polarization states and nanoscale phenomena. Among these, the observation of anomalous polar moments is of great relevance for understanding the electric-field-induced metal-to-insulator transistion; and the demonstration that confocal Raman spectroscopy of backfolded acoustic photons in metal-oxide multilayers can be used as a powerful characterization tool for monitoring their interface properties and layer thickness is an important technical development for the engineering of such functional oxide heterostructures
ISBN,Price9783031118661
Keyword(s)1. EBOOK 2. EBOOK - SPRINGER 3. Electronic materials 4. Electronics???Materials 5. OPTICAL SPECTROSCOPY 6. SUPERCONDUCTIVITY 7. SUPERCONDUCTORS 8. Surfaces (Technology) 9. Surfaces, Interfaces and Thin Film 10. THIN FILMS
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17.     
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TitleScanning Probe Microscopy : The Lab on a Tip
Author(s)Meyer, Ernst;Bennewitz, Roland;Hug, Hans J
PublicationCham, Springer International Publishing, 2021.
DescriptionXIV, 322 p. 194 illus., 89 illus. in color : online resource
Abstract NoteWritten by three leading experts in the field, this book describes and explains all essential aspects of scanning probe microscopy. Emphasis is placed on the experimental design and procedures required to optimize the performance of the various methods described. The book covers not only the physical principles behind this popular technique, but also tackles questions on instrument design, the basic features of the different imaging modes, and recurring artifacts. Novel applications and the latest research results are presented, and the book closes with a look at the future prospects of scanning probe microscopy, while also discussing related techniques in the field of nanoscience. This second edition includes essential scientific updates reflecting the latest research, as well as coverage of new breakthroughs in techniques such as submolecular imaging by atomic force microscopy (AFM), multifrequency AFM, high-speed imaging of biological matter, scanning x-ray microscopy, and tip-enhanced Raman scattering. The book serves as a general, hands-on guide for all types of classes that address scanning probe microscopy. It is ideally suited for graduate and advanced undergraduate students, either for self-study or as a textbook for a dedicated course on the topic. Furthermore, it is an essential component of any scanning probe microscopy laboratory course and a valuable resource for practicing researchers developing and using scanning probe techniques
ISBN,Price9783030370893
Keyword(s)1. Characterization and Analytical Technique 2. CONDENSED MATTER 3. CONDENSED MATTER PHYSICS 4. EBOOK 5. EBOOK - SPRINGER 6. Materials???Analysis 7. MEASUREMENT 8. Measurement Science and Instrumentation 9. MEASURING INSTRUMENTS 10. SPECTROSCOPY 11. SPECTRUM ANALYSIS 12. Surfaces (Technology) 13. Surfaces, Interfaces and Thin Film 14. THIN FILMS
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18.     
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TitlePrinciples of Photonic Integrated Circuits : Materials, Device Physics, Guided Wave Design
Author(s)Osgood jr., Richard;Meng, Xiang
PublicationCham, Springer International Publishing, 2021.
DescriptionXIII, 369 p. 227 illus., 178 illus. in color : online resource
Abstract NoteThis graduate-level textbook presents the principles, design methods, simulation, and materials of photonic circuits. It provides state-of-the-art examples of silicon, indium phosphide, and other materials frequently used in these circuits, and includes a thorough discussion of all major types of devices. In addition, the book discusses the integrated photonic circuits (chips) that are currently increasingly employed on the international technology market in connection with short-range and long-range data communication. Featuring references from the latest research in the field, as well as chapter-end summaries and problem sets, Principles of Photonic Integrated Circuits is ideal for any graduate-level course on integrated photonics, or optical technology and communication
ISBN,Price9783030651930
Keyword(s)1. EBOOK 2. EBOOK - SPRINGER 3. LASER 4. LASERS 5. Microwaves, RF Engineering and Optical Communications 6. QUANTUM OPTICS 7. Surfaces (Technology) 8. Surfaces, Interfaces and Thin Film 9. TELECOMMUNICATION 10. THIN FILMS
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19.     
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TitlePhysics and Mechanics of New Materials and Their Applications : Proceedings of the International Conference PHENMA 2020
Author(s)Parinov, Ivan A;Chang, Shun-Hsyung;Kim, Yun-Hae;Noda, Nao-Aki
PublicationCham, Springer International Publishing, 2021.
DescriptionXXIV, 601 p. 271 illus., 196 illus. in color : online resource
Abstract NoteThis book presents selected peer-reviewed contributions from the 2020 International Conference on ???Physics and Mechanics of New Materials and Their Applications???, PHENMA 2020 (26???29 March 2021, Kitakyushu, Japan), focusing on processing techniques, physics, mechanics, and applications of advanced materials. The book describes a broad spectrum of promising nanostructures, crystal structures, materials, and composites with unique properties. It presents nanotechnological design approaches, environmental-friendly processing techniques, and physicochemical as well as mechanical studies of advanced materials. The selected contributions describe recent progress in computational materials science methods and algorithms (in particular, finite-element and finite-difference modelling) applied to various technological, mechanical, and physical problems. The presented results are important for ongoing efforts concerning the theory, modelling, and testing of advanced materials. Other results are devoted to promising devices with higher accuracy, increased longevity, and greater potential to work effectively under critical temperatures, high pressure, and in aggressive environments
ISBN,Price9783030764814
Keyword(s)1. Composite materials 2. Composites 3. Computational Materials Science 4. EBOOK 5. EBOOK - SPRINGER 6. Materials Characterization Technique 7. MATERIALS SCIENCE 8. Materials science???Data processing 9. Materials???Analysis 10. Nanoscale Design, Synthesis and Processing 11. NANOTECHNOLOGY 12. Surfaces (Technology) 13. Surfaces, Interfaces and Thin Film 14. THIN FILMS
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20.    
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TitleWork Function and Band Alignment of Electrode Materials : The Art of Interface Potential for Electronic Devices, Solar Cells, and Batteries
Author(s)Yoshitake, Michiko
PublicationTokyo, Springer Japan, 2021.
DescriptionVIII, 136 p. 138 illus., 95 illus. in color : online resource
Abstract NoteThis book covers a wide range of topics on work function and band alignment, from the basics to practical examples. Work function and band alignment determine electric properties at the interface including surfaces, such as electron emission, the Schottky barrier height, and ohmic contact. Basic physics is used to systematically explain how to adjust and measure work function and how to modify the band alignment required for controlling work function in functional materials and electrodes. Methods introduced in the book help to improve device performance and to solve the problems of controlling the voltage and efficiency of devices in a great variety of applications, including electronic devices, optical devices such as displays, and energy devices such as solar cells and batteries. Understanding the technical methods necessary for controlling work function and band alignment can help to solve problems such as non-ohmic contact at source???electrode or drain???electrode interfaces in metal???oxide???silicon structures, which directly contributes to improving power saving and reducing heat generation in computers
ISBN,Price9784431568988
Keyword(s)1. EBOOK 2. EBOOK - SPRINGER 3. Electric power production 4. Electrical Power Engineering 5. ELECTRONICS 6. Electronics and Microelectronics, Instrumentation 7. LASER 8. LASERS 9. Mechanical Power Engineering 10. Surface and Interface and Thin Film 11. Surfaces (Physics) 12. Surfaces (Technology) 13. Surfaces, Interfaces and Thin Film 14. THIN FILMS
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