[PDF] Investigating Structure Property Relations In Compound Semiconductors Using Single Nanowire Devices eBook

Author : David Taylor Schoen
Publisher :
Page : pages
File Size : 18,45 MB
Release : 2010
Category :
ISBN :

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Semiconductor nanowires are an important class of materials. They have been used in a huge number of applications in the information, energy and medical sciences, and they also offer unique opportunities to study the large number of fundamental physical processes whose basic mechanisms operate on the nanoscale. Great progress has been made in the synthesis of these nanowires and the fabrication necessary to integrate them into top-down architectures; however, fully accounting for structural heterogeneity and understanding processing induced structural changes in these materials remains a challenge. A new approach to investigating structure property relationships combining in-situ transmission electron microscope (TEM) techniques with single nanowire devices and test structures fabricated on electron transparent membranes will be presented, and example studies on several metal chalcogenide materials for use in nonvolatile memory and thin film photovoltaics will be discussed. Several emerging strategies for nonvolatile information storage rely on systems in which an active element can be reversibly actuated between two structural states which can then be electronically distinguished. Gaining fundamental understanding of these systems requires an understanding of these different structural states, how they give rise to the required electronic properties, as well as the dynamics of the reversible process used to actuate the active element. In order to reach the high integration densities required to compete with existing technologies, these active elements must be on the nanoscale. To probe the materials science of two such candidate systems, silver selenide for pulsed electrochemical cell memory and germanium telluride for phase change memory, nanowires were synthesized and single nanowire memory devices were fabricated on electron transparent 50 nm thick silicon nitride substrates for ex-situ and in-situ experiments in the TEM. Currently, the world record power conversion efficiency, 20%, for a thin film photovoltaic device is held by the complicated quaternary material copper indium gallium selenide (CIGS). This excellent performance is not yet clearly understood, but may arise in large part due to the unique nature of the internal boundaries in CIGS materials. In order to understand the complicated relationship between processing and interface structure in this material, extensive TEM studies were undertaken using a variety of single nanowire test structures and in-situ heating. The fundamental understanding obtained by these studies was leveraged both to synthesize high quality p-type copper indium selenide (CIS) nanowires, and also to fabricate for the first time a single nanowire CIS solar cell, an achievement which will serve as a powerful platform for fundamental investigation into this important materials system.

Author : Fumitaro Ishikawa
Publisher : CRC Press
Page : 549 pages
File Size : 47,55 MB
Release : 2017-10-17
Category : Science
ISBN : 9814745774

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One dimensional electronic materials are expected to be key components owing to their potential applications in nanoscale electronics, optics, energy storage, and biology. Besides, compound semiconductors have been greatly developed as epitaxial growth crystal materials. Molecular beam and metalorganic vapor phase epitaxy approaches are representative techniques achieving 0D–2D quantum well, wire, and dot semiconductor III-V heterostructures with precise structural accuracy with atomic resolution. Based on the background of those epitaxial techniques, high-quality, single-crystalline III-V heterostructures have been achieved. III-V Nanowires have been proposed for the next generation of nanoscale optical and electrical devices such as nanowire light emitting diodes, lasers, photovoltaics, and transistors. Key issues for the realization of those devices involve the superior mobility and optical properties of III-V materials (i.e., nitride-, phosphide-, and arsenide-related heterostructure systems). Further, the developed epitaxial growth technique enables electronic carrier control through the formation of quantum structures and precise doping, which can be introduced into the nanowire system. The growth can extend the functions of the material systems through the introduction of elements with large miscibility gap, or, alternatively, by the formation of hybrid heterostructures between semiconductors and another material systems. This book reviews recent progresses of such novel III-V semiconductor nanowires, covering a wide range of aspects from the epitaxial growth to the device applications. Prospects of such advanced 1D structures for nanoscience and nanotechnology are also discussed.

Author : Ravin Narain
Publisher : Elsevier
Page : 488 pages
File Size : 10,54 MB
Release : 2020-06-16
Category : Technology & Engineering
ISBN : 0128168072

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Polymer Science and Nanotechnology: Fundamentals and Applications brings together the latest advances in polymer science and nanoscience. Sections explain the fundamentals of polymer science, including key aspects and methods in terms of molecular structure, synthesis, characterization, microstructure, phase structure and processing and properties before discussing the materials of particular interest and utility for novel applications, such as hydrogels, natural polymers, smart polymers and polymeric biomaterials. The second part of the book examines essential techniques in nanotechnology, with an emphasis on the utilization of advanced polymeric materials in the context of nanoscience. Throughout the book, chapters are prepared so that materials and products can be geared towards specific applications. Two chapters cover, in detail, major application areas, including fuel and solar cells, tissue engineering, drug and gene delivery, membranes, water treatment and oil recovery. Presents the latest applications of polymers and polymeric nanomaterials, across energy, biomedical, pharmaceutical, and environmental fields Contains detailed coverage of polymer nanocomposites, polymer nanoparticles, and hybrid polymer-metallic nanoparticles Supports an interdisciplinary approach, enabling readers from different disciplines to understand polymer science and nanotechnology and the interface between them

Author : Sadao Adachi
Publisher : IET
Page : 354 pages
File Size : 17,11 MB
Release : 1993
Category : Aluminium alloys
ISBN : 9780852965580

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The alloy system A1GaAs/GaAs is potentially of great importance for many high-speed electronics and optoelectronic devices, because the lattice parameter difference GaAs and A1GaAs is very small, which promises an insignificant concentration of undesirable interface states. Thanks to this prominent feature, a number of interesting properties and phenomena, such as high-mobility low-dimensional carrier gases, resonant tunnelling and fractional quantum Hall effect, have been found in the A1GaAs/GaAs heterostructure system. New devices, such as modulation-doped FETs, heterojunction bipolar transistors, resonant tunnelling transistors, quantum-well lasers, and other photonic and quantum-effect devices, have also been developed recently using this material system. These areas are recognized as not being the most interesting and active fields in semiconductor physics and device engineering.

Author : Dennis Schuetzle
Publisher :
Page : 416 pages
File Size : 34,40 MB
Release : 1986
Category : Science
ISBN :

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Presents the first comprehensive collection of articles on the fundamentals and applications of a wide variety of chemical sensors. Discusses a range of topics from the development of new sensor concepts to improvement in sensors that have been mass produced for several years. Specific types of sensors discussed include oxygen, electrochemical, microbial, drug, and glucose sensors.

Author : A. Borghesi
Publisher : Newnes
Page : 580 pages
File Size : 23,90 MB
Release : 2012-12-02
Category : Technology & Engineering
ISBN : 044459633X

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Containing over 200 papers, this volume contains the proceedings of two symposia in the E-MRS series. Part I presents a state of the art review of the topic - Carbon, Hydrogen, Nitrogen and Oxygen in Silicon and in Other Elemental Semiconductors. There was strong representation from the industrial laboratories, illustrating that the topic is highly relevant for the semiconductor industry. The second part of the volume deals with a topic which is undergoing a process of convergence with two concerns that are more particularly application oriented. Firstly, the advanced instrumentation which, through the use of atomic force and tunnel microscopies, high resolution electron microscopy and other high precision analysis instruments, now allows for direct access to atomic mechanisms. Secondly, the technological development which in all areas of applications, particularly in the field of microelectronics and microsystems, requires as a result of the miniaturisation race, a precise mastery of the microscopic mechanisms.