Titlebook: Bio and Nano Packaging Techniques for Electron Devices; Advances in Electron Gerald Gerlach,Klaus-Jürgen Wolter Book 2012 Springer-Verlag B

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Surface Information and Analyticityd distances on the nanometer scale with high yieldand small manufacturing tolerances for diverse applicationsincluding devices with high aspect ratio as well as for a wide rangeof different materials. In general, the aim is to produce or deposittwo- or three-dimensional structures in or on top of a

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Jaarboek Fysiotherapie Kinesitherapie 2009rictive for further shrinking of microelectronic and micromechanical devices, because conventional lithography allows resolutions down to 100?nm. So there is a need for newer methods which allow the fabrication of structures in the sub-100?nm range. But the throughput is low and the equipment is exp

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Ilse Swinkels,Chantal Leemrijseosition method. Although the throughput is not as high as other techniques (e.g. gravure or offset printing) ink-jet printing becomes more and more popular. Printing of conducting structures is one step of producing complex microsystems. Therefor the printing process and the annealing temperature of

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https://doi.org/10.1007/978-90-313-6912-6like electrical conductivity and plasmonic behavior with typical polymer properties, like transparency and elasticity. The possibilities of CPC lead to a new and fascinating application area of nanoparticle-based resistors and conductors, being characterized by properties that can be tailored over a

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Gerald Gerlach,Klaus-Jürgen WolterProvides solutions for electron device packaging.Comprehensive review of nanoscale materials for packaging.Lists the future trends in nanobiotechniques.Includes supplementary material:

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