Titlebook: Anisotropic and Shape-Selective Nanomaterials; Structure-Property R Simona E. Hunyadi Murph,George K. Larsen,Kaitlin J Book 2017 Springer I

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Synthetic Strategies for Anisotropic and Shape-Selective Nanomaterialsals have been synthesized in a gamut of shapes, sizes, and compositions. As their synthetic protocol progresses, scientists are becoming more and more creative in the fabrication of nanomaterials with very interesting architectures to tailor their properties for faster electronics, better resolution imaging, more efficient catalysts, among others.

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Architectured Nanomembranesranes on porous anodized aluminum oxide (AAO) substrates of different pore sizes, (2) porous glass membranes on alumina substrate, and (3) guest-host membranes based on infiltration of yttrium-stabilized zirconia inside the pore channels of AAO matrices.

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Book 2017, and energy. It provides an excellent and comprehensive overview of the effect that morphology and nanometric dimension has on the physico-chemical properties of various materials and how this leads to novel applications..

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Environmental Quality as a Public Goodmatter at the atomic level, today scientists can create novel materials with unique properties and functionalities. These new materials enable innovative technologies and applications across many fields from engineering to medicine.

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Production Theory and Transformation Spacenes have been created. With the recent bestowment of the Nobel Prize for molecular machines, this concept is being actively pursued to create inorganic nano- and microparticles that independently move for a gamut of applications.

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https://doi.org/10.1007/978-3-540-73707-0olloidal nanocrystals, the available methods for assembling colloidal nanocrystals with discrete geometries and the application of such assembled structures in various fields ranging from catalysis, biological diagnosis, plasmonics and electronics.

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An Introduction to Nanotechnologymatter at the atomic level, today scientists can create novel materials with unique properties and functionalities. These new materials enable innovative technologies and applications across many fields from engineering to medicine.

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Characterization of Anisotropic and Shape-Selective Nanomaterials: Methods and Challengess. Researchers can typically employ commonly available techniques used in materials characterization. However, in the case of anisotropic and shape-selective nanoparticles, greater concern for orientational and/or shape effects and artifacts should be shown during analyses.