22 Best Books on Nanostructures Physics

“Optical Properties of Solids” Book Review: This volume provides the key topics of intrinsic optical characteristics and photoelectric emission. It includes a summary of the basic optical spectra of solids. It covers Maxwell’s equations and the dielectric function and the theory of free-electron metals. The work also contains absorption and dispersion, the quantum mechanical theory of direct and indirect conversion between bands. Furthermore it encompasses concepts like absorption and dispersion, the uses of dispersion relations, the fluctuation-dissipation theorem and the derivation of an expression for the dielectric function in the self-consistent field estimation. The book inculcates topics like current-current correlations and the effect of surface plasmons on optical characteristics and photoemission.

“Absorption and Scattering of Light by Small Particles” Book Review: This work contains absorption and scattering in equal estimate. It includes multidisciplinary analysis which examines and explains how small particles absorb and scatter light. It consists of topics such as classical theories of optical properties based on idealized models, electromagnetic theory and other such topics. Furthermore measurements for three representative materials: magnesium oxide, aluminum and water is also presented.It provides many exact and estimated answers to several scattering numericals. It also contains illustrations and implementations from physics, astrophysics, atmospheric physics, and biophysics

“Optical Properties of Semiconductor Nanocrystals” Book Review: This volume analyses thoroughly the optical characteristics of low-dimensional semiconductor structures. It provides complete knowledge of theoretical and experimental outcomes and explains their technological implementations. It comprises the fundamental physics of electron states in crystals with an adopting a ‘cluster-to-crystal’ approach. The text explains the growth of nanocrystals, absorption and emission of light by nanocrystals, and photonic crystals. It also describes optical nonlinearities and interface effects. It explains the physical concepts with references to real devices such as novel light-emitters and optical switches.

“Fundamentals of Semiconductors: Physics and Materials Properties” Book Review: This work attempts to act as a bridge between a common solid-state physics book and research articles. It provides an elaborate description of the electronic, vibrational, transport and optical characteristics of semiconductors. The text is composed in a physical and direct manner rather than formal and pedantic. Descriptions are provided to illustrate experimental results. This book focuses on understanding the physical characteristics of Si and similar tetrahedrally coordinate semiconductors. The text’s descriptions are based on physical insights. It contains numerous tables of material parameters, figures and problems.

“Electronic Transport in Mesoscopic Systems” Book Review: This work will be appropriate for graduate students of mesoscopic physics and nanoelectronic device engineering and researchers in these fields. The book provides a complete history of the concept of electronic transport in such mesoscopic systems. This text provides a complete knowledge of the theory of electronic transport in such mesoscopic systems. It includes basic concepts, the transmission function formalism it explains three important concepts in mesoscopic physics: the quantum Hall effect, localisation and double-barrier tunnelling. It explains optical analogies to mesoscopic phenomena and discusses the non-equilibrium Green’s function formalism and its connection to the transmission formalism. It encompasses numericals with solutions. The book will be of great interest to graduate students of mesoscopic physics and nanoelectronic device engineering, as well as to established researchers in these fields.

“Introduction to Nanoscale Science and Technology (Nanostructure Science and Technology)” Book Review: This volume is appropriate for people with engineering background, tutors. It is divided into seven sections. It comprises nanoscale fabrication and characterization, nanolithography, self-assembly, and scanning probe microscopy. It includes nanomaterials and nanostructures, fullerenes and quantum dots with the characteristics and uses of these nanostructures. It summarizes topics like nanolayer, nanowire and nanoparticle composites of metals and semiconductors. Furthermore concepts such as molecular electronics consider transport through alkanes, molecular transistors, and DNA are also encompassed. The text focuses on micro and nano electromechanical systems, integration of sensing, calculation and communication. It also contains a summary of nanobiotechnology encompassing biomimetics and nanofluidics.

“Introduction To The Thermodynamics Of Materials” Book Review: This textbook provides preliminary knowledge and demonstrates the basic principles and implementations of thermodynamics to the behaviour of non-metallic materials and to the modification of metallurgy materials. It comprises common derivations of thermodynamic equations as well as derivations which explains the thermodynamics of the situation. Furthermore it consists of solved illustrations which explains the implementation of thermodynamics to the consideration of the behaviour of materials systems.

“Nanotechnology: Principles and Practices” Book Review: This volume provides the latest introduction to nanomaterials and nanotechnology. It encompasses the wide range of interdisciplinary concepts related to nanotechnology. It contains fundamental concepts of quantum mechanics and solid state physics. It includes physical as well as chemical synthetic techniques along with analytical methods for studying nanostructures. It presents a thorough information about the size-specific characteristics of nanomaterials like their thermal, mechanical, optical and magnetic features. It explains the different uses of nanomaterials in electronics, optoelectronics, energy and the medical field. The text explains the environmental effect of these technologies. It comprises spintronics, soft lithography, the lotus effect and graphene.

“Introduction to Metal-Nanoparticle Plasmonics (A Wiley-Science Wise Co-Publication)” Book Review: This volume presents a description and outline of the methods applied to model, make, and calculate metal nanoparticles. Furthermore it provides techniques for detailing results obtained and what they mean. It consists of the characteristics of coupled metal nanoparticles and the phenomena that happen when light-emitting materials are coupled to metal nanoparticles. It also covers the nonlinear optical response of metal nanoparticles. It provides a summary of important potential implementations and describes computational and experimental methods.

“Computational Nanotechnology: Modeling and Applications with MATLAB” Book Review: This work presents excellent knowledge of recent and rising techniques, opportunities and problems related to the computational methods involved in nanoscale research. This is appropriate for people working in the integrative areas that comprise nanotechnology along with engineering, physics, chemistry, biology, and medicine. It consists of a wide range of technical knowledge, research notions and practical information. It includes a summary of computational techniques in nanotechnology. Furthermore inculcates a deeper understanding of theory and modeling of two key nanoscale systems: molecular magnets and semiconductor quantum dots.

“Introduction to Nanoscale Science and Technology (Nanostructure Science and Technology) 2004th Edition” Book Review: This book would serve as a foundation for understanding of the field. A number of examples are also presented with long lists of references. The book is organised into seven sections for better understanding of each topic. Nanolithography, carbon nanotubes, microelectronics etc. the chapter on magnetic storage is given very clearly in the book. The book ends with giving a complete view of nanobiotechnology that covers biomimetics, biomolecular motors, and nanofluidics.this book would be useful to anyone with a fair scientific background.

“Physics of Semiconductors” Book Review: This book illustrates the fundamental physics of semiconductors as well as discusses the operation of electronic and optical devices based on semiconductors. It focuses on students with a good background in mathematics and physics and equally suitable for studies at the graduation level in physics-condensed-matter physics as a study for engineers interested in the basic understanding of semiconductor devices. The book covers topics including Semiconductors and their different properties and types, effects of light, P-n junction and their applications and asymmetrical devices.

“Transport in Nanostructures” Book Review: This book is well-reviewed and provides much-needed revision in the most recent experimental studies on mesoscopic devices and develops a detailed theoretical framework for understanding how they behave. The book starts with the most important visual elements in nanostructures, it describes integrated quantum systems, nanostructures transfer, quantum dots, and single-electron phenomena. The book has some separate chapters which are devoted to interference in diffusive transport, temperature decay of fluctuations, and non-equilibrium transport and nanodevices. It illustrates many experimental results with the appropriate theoretical formalism. The book will be of great interest to graduate students studying mesoscopic physics or nanoelectronics, and researchers working on semiconductor nanostructures.

“Physics of low Dimensional Semiconductors” Book Review: This book gives an introduction to the general principles that support low-dimensional semiconductors. The book provides a simple definition with reference to examples from real devices. The book explains starting with the basic results from quantum mechanics and solid-state physics, formalism can be initiated by describing the structure of low-dimensional semiconductor systems. Among the many examples, two important systems are studied in detail: dual gas, used in field-effect transistors, and quantum well, its optical properties operating on lasers and other optoelectronic devices. The book covers a wide range of exercises and will be of great help to undergraduate and undergraduate physics or electrical engineering students taking undergraduate or heterostructure device physics programs.

“Nanoscale Magnetic Materials and Applications” Book Review: This book covers new developments in the field of advanced magnetic materials. The book has important reviews of the current experimental and theoretical work on novel magnetic structures, nanocomposite magnets, spintronic materials, domain structure and domain-wall motion. It also provides an introduction to the advances in magnetic materials and applications at the nanoscale. This book also presents55 new emerging and situational phenomena, such as magnetocaloric and ferromagnetic materials-memory materials, which drive future developments in this exciting field.

“Novel Optical Technologies for Nanofabrication (Nanostructure Science and Technology)” Book Review: This book illustrates current advances made in micro/nanofabrication with super-resolution laser technologies, which are based on the recent research. It concentrates on new techniques and methods as well as the application and development of laser nanofabrication. It includes super-resolution precision laser writing, terrestrial structures based on laser-guided alignment, laser-dimensional laser nanofabrication. The book is designed as a reference for academic researchers, engineers, technologists, and graduate students in the field of micro / nanotechnology, thin film materials, super-resolution optics, and laser techniques.

“Nano-Optics: Principles Enabling Basic Research and Applications” Book Review: This book gives a comprehensive overview of nano-optics, including basic theory, experiments, and application, especially in nanofabrication and optical engineering. Contributions clearly show how advances in nano-optics and photonics have encouraged advances in nanoscience and fabrication, and vice versa. The book covers topics such as three-dimensional optical lithography and microscopy across the border of Abbe diffraction, optical diagnostics and hearing, optical- and telecommunications data, energy-efficient light, and solar energy conversion.

“Spintronics in Nanoscale Devices” Book Review: This book provides researchers investigating this cutting-edge field with background explanations for the effects of spin-based devices and their analysis of ideas in nanoelectronic circuits in detail.

“Nanopatterning and Nanoscale Devices for Biological Applications (Devices, Circuits, and Systems)” Book Review: This book has made a significant contribution to research in health sciences and bioengineering. It gives important insights into the latest advances in nanoscale technology for studying biological systems. The book elaborates the generation of nanostructured biointerfaces and bioelectronics elements. It covers different device fabrication methods targeting the substrate on the nanoscale through surface modification. It provides an overview of main biosensors and integrated devices with nanoscale functionalities. The book illustrates the different biological applications of various nanoscale devices, including a review of nanotechnology in tissue engineering. It helps students to gain more knowledge of the cutting-edge applications of nanotechnologies in biological engineering, and learn how to apply the relevant scientific concepts to their own research.

“MoS2: Materials, Physics, and Devices (Lecture Notes in Nanoscale Science and Technology)” Book Review: The book reviews the composition and electronics, magnetic fields and other properties of various MoS2 (Molybdenum disulfide) nanostructures, with compound combinations, Valley polarization, spin physics and other topics. MoS2 is important, as graphene-layered nano-material greatly expands the range of frames and metals available for nanofabrication. As MoS2 nanostructures are expected to be very important in the future development of power and other applications of electrical equipment. This book is recommended for Physics and Materials Science and engineering students as well as reference book for researchers in this field.

“Exotic States in Quantum Nanostructures” Book Review: This book gives knowledge about the newly emerging area of quantum computers and quantum information using Josephson junctions. The formal mathematical methods of conformal field theory which are applied to the understanding of Luttinger liquids is also given. The theory about electrons which interact strongly and can give rise to non-trivial ground states such as superconductivity, quantum Hall states and magnetism are discussed in this book. Information on mesoscopic superconducting devices, skyrmions and magnetism in two dimensional electron gases, transport in quantum wires, metal-insulator transitions and spin electronics are also available. This book is useful for graduate students of theoretical matter physics as well as for undergraduates.

“Nanostructure Physics of Isolated Quantum Well” Book Review: This book can benefit anyone interested in nanostructure physics of isolated quantum well. The book provides information about nanostructure physics, microelectronics and quantum mechanics. It also describes results for symmetric rectangular double barriers.