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Nano-structured materials

Volume 148 Mesoporous Crystals and Related Nano-Structured Materials... [Pg.895]

Proceedings of the Meeting on Mesoporous Crystals and Related Nano-Structured Materials, Stockholm, Sweden, 1-5 June, 2004 edited by O. Terasaki... [Pg.895]

Since nanoscale metal nanoparticles are applicable to a number of areas of technological importance, the nano-structured materials chemistry will occupy much attention of scientists. It is certain that controlling the primary structures of metal nanoparticles, that is, size, shape, crystal structure, composition, and phase-segregation manner is still most important, because these structures dominate the physical and chemical properties of metal nanoparticles. Now the liquid phase synthesis facilitates the precise control of the primary structures. [Pg.366]

Figure 8.47. SRSAXS raw data (open symbols) and model fit (solid line) for a nano structured material using a finite lattice model. The model components are demonstrated absorption factor Asr, density fluctuation background Ipu smooth phase transition/. The solid monotonous line demonstrates the shape of the Porod law in the raw data. At sq the absorption is switching from fully illuminated sample to partial illumination of the sample... Figure 8.47. SRSAXS raw data (open symbols) and model fit (solid line) for a nano structured material using a finite lattice model. The model components are demonstrated absorption factor Asr, density fluctuation background Ipu smooth phase transition/. The solid monotonous line demonstrates the shape of the Porod law in the raw data. At sq the absorption is switching from fully illuminated sample to partial illumination of the sample...
The challenge is to form compounds with structures that we design, not Mother Nature. Superlattices are examples of nano-structured materials [1-3], where the unit cell is artificially manipulated in one dimension. By alternately depositing thin-films of two compounds, a material is created with a new unit cell, defined by the superlattice period. [Pg.3]

In a review by Gonsalves el al. (2000), techniques for the fabrication of nano-structured materials are outlined. Synthesis from corresponding organo-metal precursors of nano-structured metals (Fe, Co, Ni) and alloys (Fe-Co, Pt-Pd, and special steels) are discussed and various methods considered such as thermal decomposition, ultrasonic irradiation, chemical vapour deposition, laser pyrolysis and reduction. [Pg.596]

The following micro-structural features are considered to be the main factors on which the properties of the nano-structured materials depend ... [Pg.597]

According to this method, nano-structured materials (even in commercial quantities) are produced by structural degradation of coarser-grained structures by the application of high-mechanical energy. [Pg.597]

Nano-structures comments on an example of extreme microstructure In a chapter entitled Materials in Extreme States , Cahn (2001) dedicated several comments to the extreme microstructures and summed up principles and technology of nano-structured materials. Historical remarks were cited starting from the early recognition that working at the nano-scale is truly different from traditional material science. The chemical behaviour and electronic structure change when dimensions are comparable to the length scale of electronic wave functions. Quantum effects do become important at this scale, as predicted by Lifshitz and Kosevich (1953). As for their nomenclature, notice that a piece of semiconductor which is very small in one, two- or three-dimensions, that is a confined structure, is called a quantum well, a quantum wire or a quantum dot, respectively. [Pg.599]

Nalwa HS (2000). Handbook of Nano structured Materials and Nanotechnology, vol. 5, Academic Press, New York. [Pg.218]

Nano structural materials are divided into three main types one-dimensional structures (more commonly known as multilayers) made of alternate thin layers of different composition, two-dimensional structures (wire-type elements suspended within a three-dimensional matrix), and three-dimensional constructs, which may be made of a distribution of fine particles suspended within a matrix (in either periodic or random fashion) or an aggregate of two or more phases with a nanometric grain size (these are illustrated in Fig. 17.1). [Pg.289]

Sanchez C, Soler-Illia G, et al (2003) Design of functional nano-structured materials through the use of controlled hybrid organic-inorganic interfaces. Comptes Rendus Chimie 6(8-10), 1131-1151... [Pg.227]

Jose-Yacaman M, Rendon L, Arenas J, Serra Puche MC (1997) Maya blue paint an ancient nano structured material. Science 273 223-224. [Pg.150]

Fig. la. Atomic structure ofa two-dimensional nano-structured material. For the sake of clarity, the atoms in the centers of the crystals are indicated in black. The ones in the boundary core regions are represented by open circles. Both types of atoms are assumed to be chemically identical b Atomic arrangement in a two-dimensional glass (hard sphere model), c Atomic structure of a two-dimensional nanostructured material consisting Of elastically distorted crystallites. The distortion results from the incorporation of large solute atoms. In the vicinity of the large solute atoms, the lattice planes are curved as indicated in the crystallite on the lower left side. This is not so if all atoms have the same size as indicated in Fig. la [13]... [Pg.3]

The following review is concerned with the synthetic and structural chemistry of molecular alumo-siloxanes, which combine in a molecular entity the elements aluminum and silicon connected by oxygen. They may be regarded as molecular counterparts of alumo-silicates, which have attracted considerable attention owing to their solid-state cage structures (see for example zeolites).1 3 Numerous applications have been found for these solid-state materials for instance the holes and pores can be used in different separation techniques.4,5 Recently the channel and pore structures of zeolites and other porous materials have been used as templates for nano-structured materials and for catalytical purposes.6 9... [Pg.49]

An illustrative example of transient PL experiments using a streak camera is the study of a nano-structured material, opal [27], This natural substance... [Pg.373]

Due to size confinement on electronic interactions and density of phonon states, nano-structured materials exhibit distinct optical, magnetic and thermal properties in comparison with their bulk counterparts. Currently, there is growing interest for understanding how the confinement and other nanoscale mechanisms of electronic interactions in nanophosphors affect luminescence efficiency and photodynamics for such applications as three-dimensional displays, high-performance fight emitting devices, and highly sensitive bioassays. [Pg.166]

Biomaterials, Synthesis, Fabrication, and Applications Bioreactors Distillation electrochemical Engineering Fluid Dynamics Membrane Structure Membranes, Synthetic (Chemistry) Molecular Hydrodynamics Nano-structured Materials, Chemistry of Pharmaceuticals, Controlled Release of Solvent Extraction Wastewater Treatment and Water Reclamation... [Pg.407]

The main application of hard nanostructures is for the preparation of bonded magnets. Although economically marginal today, MEMS constitute a specific domain of applications, since the magnetic properties of nano-structured materials are maintained at small magnet dimensions. Finally it is realised that hard nanostructured materials could find applications as high density recording media. [Pg.355]

Majer, G., Eberle, U., Kimmerle, F., Stanik E. and Orimo, S. (2003) Hydrogen diffusion in metallic and nano structured materials, Physica B 328, 81-89. [Pg.147]

Debra R. Rolison is head of Advanced Electrochemical Materials at the Naval Research Laboratory (NRL). She received a B.S. in chemistry from Florida Atlantic University in 1975 and a Ph.D. in chemistry from the University of North Carolina at Chapel Hill in 1980 under the direction of Royce W. Murray. Dr. Rolison joined the Naval Research Laboratory as a research chemist in 1980. Her research at NRL focuses on the influence of nanoscale domains on electron- and charge-transfer reactions, with special emphasis on the surface and materials science of aerogels, electrocatalysts, and zeolites. Her program creates new nano structured materials and composites for catalytic chemistries, energy storage and conversion (fuel cells, supercapacitors, batteries, thermoelectric devices), and sensors. [Pg.141]


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See also in sourсe #XX -- [ Pg.40 ]




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