By Edward L. Wolf
Delivering the 1st self-contained creation to the actual suggestions, concepts and functions of nanotechnology, this can be of curiosity to readers grounded in collage chemistry and physics. As such, it truly is compatible for college kids and execs of engineering, technological know-how, and fabrics technology and to investigate employees of assorted backgrounds within the interdisciplinary parts that make up nanotechnology. the writer covers the spectrum from the newest examples of nanoscale platforms, quantum techniques and results, self-assembled nanosystems, production, scanning probe equipment of statement and fabrication, to single-electron and molecular electronics. In so doing, he not just comprehensively provides the clinical historical past, but in addition concludes with a glance on the long term results.
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Additional info for Nanophysics and nanotechnology: an introduction to modern concepts in nanoscience
Most of the bioactive glasses are based on the SiO2-P2O5– CaO-Na2O system. Other glass and glass ceramics include ZnO, Ag2O, and Al2O3. The production of the materials using the sol-gel process allows the tailoring of textural characteristics, such as size and structure of pores, in order to enhance the bioactive behavior. 4 SILICON AND SILICON-BASED SURFACES Silicon is an excellent material with good mechanical, electrical, optical, and biocompatibility properties. Silicon is favored for the availability of a large variety of high-precision microfabrication and micromachining methods dedicated to it.
Silk fibroin exhibits in vitro and in vivo biocompatibility, robust mechanical properties, including high mechanical modulus and toughness, and relatively slow proteolytic biodegradation. , are also naturally occurring, and inherently biocompatible for in vitro and in vivo situations. 14 Biopolymers are used as bulk and film materials in microfluidics. Some materials, for example, gelatine (melting point at 35°C), have to be cross-linked in order to be stabilized. 11). 15 When selecting the most suitable material for a particular application, the physical, chemical, and biological properties of the material have to be carefully considered.
An organosilane is a molecule that contains at least one carbon-silicon bond (CH3-Si-). Chlorsilanes, silyl amines, and alkoxy silanes are molecules that have the chlorine, nitrogen, or methoxy groups, respectively, attached directly to silicon. These molecules are very reactive, and they react readily with water to form silanols and siloxane bonds (-Si-O-Si-), which are very stable structures. Generally, silanes are used to bond glass, an inorganic material, to organic materials or compounds. 12.
Nanophysics and nanotechnology: an introduction to modern concepts in nanoscience by Edward L. Wolf