• Metal Oxide Nanostructures and Their Applications is the world's first multivolume reference covering a wide variety of advanced research and emerging developments in the field. (aspbs.com)
  • The book series cover theoretical and experimental aspects of metal oxide nanostructures dealing with materials design, modeling, synthesis, fabrication, processing, spectroscopy characterization, structure-property relationships and their device applications at nanoscale. (aspbs.com)
  • This 5 volume set is an unprecedented single reference source that provides an ideal introduction and overview of the recent advances on metal oxide nanostructures and their applications. (aspbs.com)
  • The interdisciplinary nature of research field of metal oxide nanostructures and their applications is reflected in each of the volumes of this book series. (aspbs.com)
  • The book series contains 71 state-of-the-art review chapters on various metal oxide nanostructures and their applications, thousands of literature references, illustrations, figures, tables and equations. (aspbs.com)
  • The book series are suitably divided into five volumes with topics ranging from growth to properties to applications of metal oxide nanostructures. (aspbs.com)
  • Volume 1: Growth and Properties Part-1 covers various theoretical and practical aspects of various metal oxide nanostructures. (aspbs.com)
  • Various crystal growth models and mechanisms for the formation of numerous metal oxide nanostructures have discussed in detail. (aspbs.com)
  • In addition to this, the state-of-the-art of defect chemistry, surface hydration chemistry, band-gap engineering of various metal oxide nanostructures have also been discussed. (aspbs.com)
  • Volume 3: Applications Part-1 is exclusively devoted on the metal oxide nanostructures based nanodevices, nanosensors, and energy applications. (aspbs.com)
  • Numerous theoretical and experimental aspects of metal oxide nanostructures used in the energy harvesting have been demonstrated. (aspbs.com)
  • Volume 4: Applications Part-2 consists of state-of-the-art review chapters on catalytic, field emission, non-volatile memory and tunneling devices and other general applications based on metal oxide nanostructures. (aspbs.com)
  • In this chapter, we have discussed about the comprehensive ideas of sol-gel technique to synthesis metal oxide nanostructures. (intechopen.com)
  • Sol-gel process have been extensively explored for producing metal oxide nanostructures in the field of engineering and technological applications probably due to the controlled shape and size exhibited by the obtained products. (intechopen.com)
  • The current state and perspectives in natural and life sciences are strongly linked to the development of novel complex organic-inorganic materials at various levels of organization, including semiconductor quantum dots (QDs) and QD-based nanostructures with unique optical and physico-chemical properties. (routledge.com)
  • This book provides a comprehensive overview of different aspects of hybrid nanostructures self-assembled from light-emitting inorganic semiconductor quantum dots and organic dyes. (routledge.com)
  • The company aims to replace plastic lenses with waveguides built out of silicon nanostructures using traditional semiconductor processing techniques. (ieee.org)
  • This review provides an overview of methods and results obtained by using aerosol technology for producing nanostructures for a variety of applications in semiconductor physics and device technology. (lu.se)
  • We want to bridge the gap between surface characterization (typically done on ideal model surfaces) and device processing, by investigating semiconductor nanostructures during device operation at the atomic scale. (lu.se)
  • Our ongoing research focuses on ultrafast dynamics of photoexcited charge carriers in semiconductor nanostructures and their correlation with local structure and composition. (lu.se)
  • Carbon nanotubes (CNTs), graphene, and other structurally similar non-carbon nanostructures (including those of boron nitride, and boron), have attracted tremendous attention for their intriguing properties. (mrs.org)
  • In this seminar series we want to understand plasmonic nanostructures and their interaction with carbon-based nanosystems (graphene and carbon nanotubes). (fu-berlin.de)
  • Sol-gel route is adoptable way to choose desired shape of the metal oxide (MO) nanostructures such as nanospheres, nanorods, nanoflakes, nanotubes, nanoribbons, nanospheres and nanofibers for shape-dependent applications and comparative accessibility. (intechopen.com)
  • Investigation of mechanical properties of electrodeposited nan-owire is fundamental for the complete correlation between synthesis parameters/nanostructure and physical properties (see above). (empa.ch)
  • Biomedical applications involving drug deliveries, mimicking of natural bone and teeth, anti-microbial activities and pharmaceuticals employ sol-gel prepared MO nanostructures because of their low temperature synthesis, homogeneity and purity. (intechopen.com)
  • Apart from this, sol-gel route is preferred for synthesis of MO-based nanostructures with several ranges of applications such as magnetic applications, energy generation, conversion and storage devices, electronic device applications and sensors and actuators materials. (intechopen.com)
  • We develop and use methods for analysis of nanostructures with highest possible spatial and temporal resolution. (lu.se)
  • We are developing novel methods for X-ray analysis of nanostructures, in close collaboration with the MAX IV synchrotron facility. (lu.se)
  • In this paper, we'll present the direct fabrication of MgxBy nanostructures by applying our uniform diameter physical template of MCM-41 in the HPCVD reaction. (aiche.org)
  • Si might be incorporated in the nanostructure during the fabrication process followed the VLS theory. (aiche.org)
  • Note that B82Y uses the same definitions for nanosize, nanoscale and nanostructures as B82B , but that the definition of B82B is more restricted in that it relates to specific nanostructures formed by manipulation of individual atoms, molecules, or limited collections of atoms or molecules as discrete units. (uspto.gov)
  • The combination of DNA nanostructures' ability to be accurately patterned at the nanoscale, its simplicity in being pre-programmed for rapid assembly within hours, and its capability to integrate thousands of DNA components into complex architectures all make it an attractive method for nanofabrication. (harvard.edu)
  • The ability to create nanostructures within living cells using DNA has the potential to be a powerful tool for basic biology, biomedical engineering and medicine ( Fig. 1a ). (nature.com)
  • The objective is to create nanostructures in various forms, such as capsules and tubes, through the skillful exploitation of anthracene's shape and properties. (titech.ac.jp)
  • When L {\displaystyle L} is comparable to or smaller than the mean free path (which is of the order 1 µm for carbon nanostructures), the continuous energy model used for bulk materials no longer applies and nonlocal and nonequilibrium aspects to heat transfer also need to be considered. (wikipedia.org)
  • Nanostructures made of carbon are extremely versatile: they can absorb ions in batteries and supercapacitors, store gases, and desalinate water. (sciencedaily.com)
  • This symposium will emphasize the physical, chemical, and biological aspects of these carbon and non-carbon nanostructures. (mrs.org)
  • Further, nanostructures can be generated by nanolithography and thereafter selectively decorated with dye molecules. (routledge.com)
  • For tailoring the nanostructures and the growth mechanism, organic molecules can be added to the electrochemical bath. (empa.ch)
  • Applications and aspects of nanostructures which are produced by any method, and is not restricted to those that are formed by manipulation of individual atoms or molecules. (uspto.gov)
  • The technique exploits the base-pairing interactions between single-stranded DNA molecules of known sequence to generate intricate three-dimensional nanostructures with predefined shapes in arbitrarily large numbers. (nanotech-now.com)
  • It is worth noting that large surface-to-volume ratio and quantum confinement effects can strongly influence the band gap, density of states, and carrier dynamics in the low-dimensional CdS nanostructures. (springer.com)
  • The Spin Dynamics in Nanostructures GRC is a premier, international scientific conference focused on advancing the frontiers of science through the presentation of cutting-edge and unpublished research, prioritizing time for discussion after each talk and fostering informal interactions among scientists of all career stages. (grc.org)
  • This GRC will be held in conjunction with the "Spin Dynamics in Nanostructures" Gordon Research Seminar (GRS). (grc.org)
  • We carry out investigations of ultrafast charge carrier dynamics within single nanostructures on their natural time scale. (lu.se)
  • Probing even down to individual atoms on functional nanostructure materials is relevant as just one impurity in one specific location can have significant influence on physical properties. (lu.se)
  • Now, researchers have designed DNA nanostructures that can heal themselves in serum. (acs.org)
  • The researchers developed a computer model of the process that indicated DNA nanostructures could be maintained for months or longer using the self-healing method. (acs.org)
  • Although the optical properties of CdS nanostructures have been extensively studied by other researchers, the current understanding of the surface exciton and related lasing mechanisms is still far more complete. (springer.com)
  • With the aid of a super-resolution technique called DNA-PAINT, the researchers are able to visualize nanostructures with unprecedented spatial resolution, allowing them to image each of the strands in the nanostructures. (nanotech-now.com)
  • Researchers at the Wyss Institute have developed two methods for building arbitrarily shaped nanostructures using DNA, with a focus on translating the technology towards nanofabrication and drug delivery applications. (harvard.edu)
  • This book provides a comprehensive description of the morphology and main physico-chemical properties of self-assembled inorganic-dye nanostructures as well as some applications in the field of nanotechnology. (routledge.com)
  • Nanowerk Spotlight ) Recent developments in DNA-based nanotechnology have shown the suitability of this novel assembly method for constructing useful nanostructures. (nanowerk.com)
  • Starting from a detailed understanding of epitaxial growth, derived from variable temperature scanning tunneling microscopy (STM) experiments compared with theoretical modeling, we use self-assembly to grow metallic nanostructures with the desired morphology, size, and spacing at single crystal surfaces. (epfl.ch)
  • Rather than relying on electrical transport through DNA itself, we have made use of DNA nanostructures as templates for the specific deposition of functionalized metallic silver nanowires. (nanowerk.com)
  • TEM analysis shows starting from 873K reaction temperature, the MgxBy nanostructures start to fabricate. (aiche.org)
  • In our group, we work fabricate photonic nanostructures using a scalable and low-cost soft nanoimprinting technique compatible with emerging optoelectronic devices. (icmab.es)
  • We intend to identify the individual contributions of each of the differently coordinated constituent atoms with the ultimate goal to engineer nanostructures with desired properties, such as magnetic anisotropy energy and moment, spin-polarization at the Fermi level, chemical reactivity and selectivity. (epfl.ch)
  • Because the synthetic method requires no organic solvent and because of the distinct hierarchical nanostructure, protein-inorganic nanoflowers display enhanced catalytic activity and stability and would be a promising tool in biocatalytical processes and biological and biomedical fields. (cdc.gov)
  • Third, it has enhanced enzymatic stability compared to the free form of enzyme due to the unique hierarchical nanostructure. (cdc.gov)
  • This ability to switch between different nanostructure configurations may allow for the creation of biosensors and nanodevices that can perform specific tasks within the body. (medgadget.com)
  • We apply X-ray photoelectron spectroscopy in order to obtain chemical information from nanostructure surfaces and interfaces and correlate it with atomic-scale structural and electronic properties. (lu.se)
  • Spin configuration, magnetic and electrical properties of patterned nanostructures will be investigated in three kinds of magnetically coupled materials: antiferromagnetic / ferromagnetic (AF/FM), very thin multilayers with perpendicular anisotropy and superconducting / ferromagnetic (SC/FM) bilayers. (europa.eu)
  • The effect of magnetic coupling in: i) the formation of a vortex state in dots with an in-depth magnetic profile (FeF2/FeNi), ii) competing anisotropy nanostructures (IrMn/FeCo), iii) the domain configuration in YBaCuO/FM hybrid heterostructures, and iv) the stability of Co/CoFeB nanoelements with perpendicular anisotropy, will be systematically investigated. (europa.eu)
  • The richness of nanostructures facilitates the observation of various interesting phenomena, which allows the integration of functional nanomaterials into a wide range of applications. (springer.com)
  • In the past decade, research on the nanostructure-based laser devices has focused on the ability to generate lasers due to their optical gain media and natural optical cavities [ 1 ]. (springer.com)
  • The focus of our research is on ferroic materials (ferroelectrics, ferromagnets and multiferroics), as well as nanostructures based on ferroic patterns or other type of self-assembled patterns, such as nanodomains . (rug.nl)
  • The RLE Nanostructures Laboratory ( NSL ) develops techniques for fabricating surface structures with feature sizes in the range from nanometers to micrometers, and uses these structures in a variety of research projects. (mit.edu)
  • The scanning electron micrograph of the Zn-ZnO nanosheets coated fiber exhibits a flower-like nanostructure with high surface area. (who.int)
  • In the online journal Nature Communications, he and his colleagues describe a mode of super-resolution microscopy that enables all the strands within these nanostructures to be visualized individually. (nanotech-now.com)
  • We use scanning tunneling microscopy and atomic force microscopy in different newly developed setups for operando surface studies of technologically relevant nanostructure devices. (lu.se)
  • With DNA-PAINT it is possible to visualize all the strands in DNA nanostructures individually. (nanotech-now.com)
  • There is a direct correlation between SX emission intensity and surface-to-volume ratio, which is the SX emission intensity is proportional to the superficial area of the nanostructures. (springer.com)
  • Display of great potential by nanostructures for thermoelectric applications also motivates the studies of thermal transport in such devices. (wikipedia.org)
  • DNA assembled into nanostructures such as tubes and origami-inspired shapes could someday find applications ranging from DNA computers to nanomedicine. (acs.org)
  • Someday, doctors could introduce DNA nanostructures to the human body to diagnose diseases or deliver medications, among other applications. (acs.org)
  • Based on the observations and deductions presented here, SX emission significantly impact on the performance of nanostructures for lasing and light-emitting applications. (springer.com)
  • Due to the valuable properties and applications of ZnO nanostructures, the fifth volume of the book series is devoted only on ZnO nanostructures and their nanodevice applications. (aspbs.com)
  • Genetically encoding DNA nanostructures provides a route for their production as well as applications in living cells. (nature.com)
  • In this feature article, we provide an overview of synthetic strategies and growth mechanisms of various Fe 3 O 4 nanostructures , discuss the uniqueness of associated properties, and illustrate their potential applications. (rsc.org)
  • Note that this group deals with nanostructures used for sensing or actuating, wherein the nanostructure itself (e.g. quantum dot, nanotube) is at least part of the sensor or actuator. (uspto.gov)
  • To achieve the MgB2 nanostructures, most methods reported involve the post doping of Mg. The Hybrid Physical-Chemical Vapor Deposition (HPCVD) was introduced by Zheng et al. (aiche.org)
  • The NanoStructures Laboratory Director is Karl K. Berggren. (mit.edu)
  • The Raman spectrum of our as-synthesized MgxBy nanostructures shows a finger print peak at 528-1cm, which is the stretching mode of boron bonding with other elements. (aiche.org)
  • In nanostructures phonons usually dominate and the phonon properties of the structure become of a particular importance for thermal conductivity. (wikipedia.org)
  • These samples are then investigated either by spatially integrating measurements, revealing the properties of the ensemble of nanostructures, or by addressing some of the properties of interest directly at the atomic scale by means of STM. (epfl.ch)
  • Mechanical properties of electrodeposited microstructures and nanostructures are investigated though micro tensile, microcompression and nanoindentation tests. (empa.ch)
  • However, these nanostructures are typically produced via cumbersome and costly lithographic processes. (icmab.es)
  • Intracellular assembly is demonstrated using a four-ssDNA crossover nanostructure that recruits split YFP when properly assembled. (nature.com)
  • Since the early 1980s, it has been recognized that the information storage capacity of DNA is ideal for programming the self-assembly of nanostructures 1 . (nature.com)
  • The yield of the nanostructures increases with the reaction temperature. (aiche.org)
  • NEXAFS analysis on the boron k-edge indicates the formation of Mg-B bond after the HPCVD reaction and EELS analysis also confirms the existence of B and Mg in the nanostructures with slight Si contamination. (aiche.org)
  • Using a robust process involving numerous atmospheric exposures and transport, 3D nanostructures with atomic metrology are fabricated. (jove.com)
  • The effect of electrostatic shielding of the polarization fields in nanostructures at high carrier densities is studied. (springer.com)
  • The as-synthesized nanostructures have the diameters in the range of 3-4nm, and the diameter distribution doesn't vary much with the increasing reaction temperature. (aiche.org)
  • DC magnetization indicates the as-synthesized sample has superconductive transition temperature at 35K, close to the bulk phase MgB2 standard, and the difference might due to the Si incorporation in the nanostructures. (aiche.org)
  • In serum at body temperature, the nanostructures degraded within only 24 hours. (acs.org)
  • Sol-gel is a low temperature, highly controllable and cost effective method for production of homogeneous, highly stoichiometric and high quality ultrafine nanostructures. (intechopen.com)
  • We want to know how local surface and interface composition influences device performance, therefore we study individual nanostructure devices during operation, and we follow chemical surface reactions in-situ. (lu.se)
  • DNA nanostructures are excellently poised to deliver therapeutics in a programmable way. (harvard.edu)