Semiconductor Conferences 2018 - SEMICONDUCTORS …
Chapter 15: Properties and Devices OF Single One-Dimensional Nanostructure: Application of Scanning Probe Microscopy
Zinc Oxide—From Synthesis to Application: A Review - MDPI
Chip-scale optical interconnect solution for Grid computing and data center applications. XFlame technology enables wafer level mass production of opto-electric components using standard semiconductor processes, enables a 1:10 reduction of size and cost.
Since the revolutionary discovery of carbon nanotubes in 1991, one-dimensional (1D) nanostructures such as nanowires, nanobelts, and nanotubes have attracted tremendous attention due to their significance in basic scientific research and potential technological applications, based on their specific geometries and distinct properties. They are regarded as the most ideal systems for investigation of the dependence of electrical, optical, or mechanical properties on dimensionality and size reduction, and are expected to become the most promising building block for the next-generation nanoscale electronic and optoelectronic devices in the future. Nanocircuits built using semiconductor nanowires were declared as a “breakthrough in science” by magazine in 2001. magazine published a report claiming that “Nanowires, nanorods or nanowhiskers. It doesn't matter what you call them, they're the hottest property in nanotechnology.” There is no doubt that 1D nanostructures represent the most important yet controverzial field in nanoscience and nanotechnology because of their significant consequences.
Large-Scale Synthesis of TiO2 Nanorods via …
This book, reflects the tremendous worldwide interest in 1D nanostructures. It covers the synthesis, properties, device applications, and major classes of 1D nanostructures, such as carbon nanotubes, semiconductor nanowires and nanotubes, organic molecule nanostructures, polymer nanofibers, peptide nanostructures, supramolecular nanostructures, and many other types of 1D nanomaterials. In addition, this book highlights various properties of 1D nanostructures such as optical, electronic, magnetic, catalytic properties as well as their advanced applications in photovoltaics, piezoelectrics, thermoelectrics, lithium ion batteries, field-effect transistors (FET), photodetectors, light emitting diodes (LED), lasers, field emitters (FE), waveguides, modulators, sensors, plasmonics, spintronics, and bioscience. This book contains 25 state-of-the art review chapters written by 68 internationally renowned experts in this field. The contents can be summarized as follows.
One-dimensional (1D) nanostructures, such as nanowires, nanotubes, and nanobelts, constitute the fundamentals of nanoscience and nanotechnology. They have demonstrated their genius in wide applications such as electronics, optoelectronics, sensors, catalysts, energy conversion and storage, plasmonics, and spintronics. This book on the principles and applications of one-dimensional nanostructures, penetrates the tremendous worldwide interest in 1D nanostructures, ranging from the synthesis and properties to device applications of these structures. Prof. Tianyou Zhai and Prof. Jiannian Yao have harnessed their own knowledge and experience, and assembled internationally recognized authorities from 11 countries on four continents to contribute chapters covering a broad overview of important 1D nanostructure topics.
Recent Advances in the Synthesis and Application of …
For the synthesis of 1D nanostructures (Chapters 1–5), Z. Zhang and S. Senz review their more recent efforts to control the growth of 1D semiconductor nanostructures with the assistance of porous templates. R. Mas-Ballesté and F. Zamora provide an overview of the construction of coordination polymers as 1D nanostructures. B. Korgel reports the fabrication of semiconductor nanowires through a supercritical fluid–liquid–solid process. Z. Li, G. Lu, and coworkers review the more recent progress of different types of colloidal nanowires produced from different wet-chemical approaches, including their optical, electronic, and magnetic properties, as well as their potential applications in the energy conversion and biomedical fields. Y. Chou and K. Tu discuss the core–shell effect on the nucleation and growth of nanoscale silicides.
A commercial grade of silicon carbode is known as . Its structure is very much like that of diamond with every other carbon replaced by silicon. On heating at atmospheric pressure, it decomposes at 2700Â°C, but has never been observed to melt. Structurally, it is very complex; at least 70 crystalline forms have been identified. Its extreme hardness and ease of synthesis have led to a diversity of applications â in cutting tools and abrasives, high-temperature semiconductors, and other high-temperature applications, manufacture of specialty steels, jewelry, and many more.
Hua Zhang - Nanyang Technological University, Singapore
Journal of Nanoscience and Nanotechnology
Ligand-Selective Aqueous Synthesis of One-Dimensional CdTe Nanostructures. код для вставки
Metal-Organic-Framework-Based Materials as Platforms for ..
23/08/2011 · Synthesis and structure of solution-stable one-dimensional palladium wires
Israeli Science and Technology related companies database
Recent development of two-dimensional transition metal dichalcogenides and their applications
Society of Vacuum Coaters - SVC Education Program
For the properties of 1D nanostructures (Chapters 6–10), C. N. R. Rao and coworkers describe some of salient features of the electronic structure and properties (including Raman spectroscopy, chemical doping, electronic and magnetic properties, molecular charge transfer, and metal nanoparticle decoration) of carbon nanotubes and graphene. Q. Xiong and coworkers review the rational synthesis of various of 1D semiconductor nanowires and heterostructrues and systematically discuss the Raman scattering of 1D nanostructures of phonon confinement, radial breathing modes, surface optical phonons, the antenna effect, and stimulated Raman scattering. J. Zhang, Y. Li, and coworkers provide a brief overview of the synthesis, optical properties, charge carrier dynamics, and applications of 1D hematite nanostructures. B. Zou and coworkers investigate the doping effect on the novel optical properties of 1D semiconductor nanowires, and find that the confined elementary excitation in the 1D nanowire could be modified by minor doping, forming other quantum states and producing novel optical properties. G. Rosenman and N. Amdursky present the basic physics of quantum confinement phonomena and related optical effects in self-assembled biological fibrils and bioinspired peptide nanotubular materials.
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