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Nanotechnologies for future mobile devices / edited by Tapani Ryhänen [and others].

Contributor(s): Material type: TextTextPublisher: Cambridge : Cambridge University Press, 2010Description: 1 online resource (xiv, 268 pages) : digital, PDF file(s)Content type:
  • text
Media type:
  • computer
Carrier type:
  • online resource
ISBN:
  • 9781139192255 (ebook)
Subject(s): Additional physical formats: Print version: : No titleDDC classification:
  • 621.3845 22
LOC classification:
  • TK5103.2 .N36 2010
Online resources:
Contents:
When everything is connected / T. Ryhänen, M.A. Uusitalo, and A. Kärkkäinen -- On teh possible developments for the structural materials relevant for future mobile devices / O. Ikkala and M. Heino -- Energy and power / M. Rouvala [and others] -- Computing and information storage solutions / P. Pasanen [and others] -- Sensing, acuation, and interaction / P. Andrew [and others] -- Future of radio and communication / A. Pärssinen, R. Kaunisto, adn A. Kärkkäinen -- Flat panel displays / A. J: Flewitt and W.I. Milne -- Manufacturing and open innovation / T. Minshall [and others] -- Seeing beyond the hype : what the internet teaches us about the development of nanotechnology / T. Crawley, L. Juvonen, and P. Koponen.
Summary: Explore the potential for nanotechnologies to transform future mobile and Internet communications. Based on a research collaboration between Nokia, Helsinki University of Technology, and the University of Cambridge, here leading researchers review the current state-of-the art and future prospects for: • Novel multifunctional materials, dirt repellent, self-healing surface materials, and lightweight structural materials capable of adapting their shape • Portable energy storage using supercapacitor-battery hybrids based on new materials including carbon nanohorns and porous electrodes, fuel cell technologies, energy harvesting and more efficient solar cells • Electronics and computing advances reaching beyond IC scaling limits, new computing approaches and architectures, embedded intelligence and future memory technologies. • Nanoscale transducers for mechanical, optical and chemical sensing, sensor signal processing, and nanoscale actuation • Nanoelectronics to create ultrafast and adaptive electronics for future radio technologies • Flat panel displays with greater robustness, improved resolution, brightness and contrast, and mechanical flexibility • Manufacturing and innovation processes, plus commercialization of nanotechnologies.
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Title from publisher's bibliographic system (viewed on 05 Oct 2015).

When everything is connected / T. Ryhänen, M.A. Uusitalo, and A. Kärkkäinen -- On teh possible developments for the structural materials relevant for future mobile devices / O. Ikkala and M. Heino -- Energy and power / M. Rouvala [and others] -- Computing and information storage solutions / P. Pasanen [and others] -- Sensing, acuation, and interaction / P. Andrew [and others] -- Future of radio and communication / A. Pärssinen, R. Kaunisto, adn A. Kärkkäinen -- Flat panel displays / A. J: Flewitt and W.I. Milne -- Manufacturing and open innovation / T. Minshall [and others] -- Seeing beyond the hype : what the internet teaches us about the development of nanotechnology / T. Crawley, L. Juvonen, and P. Koponen.

Explore the potential for nanotechnologies to transform future mobile and Internet communications. Based on a research collaboration between Nokia, Helsinki University of Technology, and the University of Cambridge, here leading researchers review the current state-of-the art and future prospects for: • Novel multifunctional materials, dirt repellent, self-healing surface materials, and lightweight structural materials capable of adapting their shape • Portable energy storage using supercapacitor-battery hybrids based on new materials including carbon nanohorns and porous electrodes, fuel cell technologies, energy harvesting and more efficient solar cells • Electronics and computing advances reaching beyond IC scaling limits, new computing approaches and architectures, embedded intelligence and future memory technologies. • Nanoscale transducers for mechanical, optical and chemical sensing, sensor signal processing, and nanoscale actuation • Nanoelectronics to create ultrafast and adaptive electronics for future radio technologies • Flat panel displays with greater robustness, improved resolution, brightness and contrast, and mechanical flexibility • Manufacturing and innovation processes, plus commercialization of nanotechnologies.

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