Titlebook: Advanced Functional Porous Materials; From Macro to Nano S Arya Uthaman,Sabu Thomas,Hanna Maria Book 2022 Springer Nature Switzerland AG 20

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,Einführung und Problemstellung,eters comparable to optical wavelengths are predicted to have unique and highly useful optical properties such as photonic bandgaps and optical stop-bands. Herein, the current state of characterization of these materials using a set of three-dimensional imaging techniques: computerized X-ray tomogra

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Betriebliche Umweltschutzbeauftragtesoporous materials in recent years. This chapter discusses the various instrumentation techniques that are used to investigate and characterize mesoporous materials in order to determine particle size, pore morphology, structure and surface information. The key biophysical techniques used to classif

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https://doi.org/10.1007/978-3-322-90569-7, and catalysis processes, membranes, microdevices, etc. The properties of nanoporous materials are controlled by the arrangement of atoms in the crystal as well as the specific surface area and porosity. Detailed information about textural properties, such as pore size, shape, surface morphology, a

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https://doi.org/10.1007/978-3-642-61035-6niques have enabled scientists to tailor the properties and design a wide range of application specific nanoporous materials. This chapter highlights the key technological advancements that nanoporous materials have achieved in the frontiers of biomedical engineering across analyses, diagnostics and

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https://doi.org/10.1007/978-3-642-61035-6ailability, low density, interconnected porosity at diverse scales, variable chemical composition, and excellent accommodation capability with thermal variation and space volume. The hierarchical porous structure benefits ion and electron transport, and diffusion, and mass transfer. With the varying

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