In the present day, the development of sensors that are embedded and based on the nanostructures has become part of the communications industry. Nanotechnologies has augmented the human sensory skills. It is based on integrated sensors and the ability to aggregate this enormous worldwide sensory data into information that is meaningful to people every day (Ermolov et al. Nanotechnology can assist in the development of intelligent devices of the novel kind where learning is an essential characteristic property of the system. These are similar to biological systems that grow and acclimatize freely to the environment.Nanotechnologies may equally open solutions for sensors that are tough in environmental conditions that are harsh and stable for a long duration. In the present day, acceleration sensors, pressure, and mechanical sensors are showing signs of fulfilling these requirements, but the lack of biochemical or chemical sensors still proves to be a challenge. Nanotechnologies has enabled new elements of sensing and new materials for sensors. These have made possible the creation of sensors that are made up of massive arrays with similar elements of sensing and hence led to the development of sensing principles that are novel.Nanotechnology can help in solving the challenge of processing time brought about due to the RF operation in the Gigahertz frequency range. For instance, modern developments in scaling and nanotechnology enable the construction of systems that have nanoscale resonators with large numbers. These systems make feasible spectral processing in the RF domain. In addition, nanotechnology offers novel prospects for antennas. Reduction of the size of the present antennas made using magnetic materials and that conduct materials that are bulk increases dissipation of electromagnetic waves. Optimization of the antenna’s geometry can be done using simulations. However, enhancement of the antenna’s performance would result from nanotechnology by the tailoring of new materials such as magnetic nanoparticles.Nanotechnology’s impact on information technology rotates around two distinct areas. These include the use of nanomaterials for the creation of smaller, reliable, faster and efficient memory for computer application. It also entails the replacement of devices of present day computers for advanced computer
Ermolov, V., Heino, M., Kärkkäinen, A., Lehtiniemi, R., Nefedov, N.*, Pasanen, P., Radivojevic, Z., Rouvala, M., Ryhänen, T., Seppälä, E., Uusitalo, M. A. Significance of Nanotechnology for Future Wireless Devices and Communications. Nokia Research Center. Retrieved on 7th April 2015 from http://research.nokia.com/sites/default/files/PIMRC07-1169.pdf
Kostoff, R.N., Koytcheff, R.G. and Lau, C.G. “Global nanotechnology research literature overview,” Technological Forecasting & Social Change 74(2007): 1733-1747.
Ladd, T.D., Jelezko, F., Laflamme, R., Nakamur, Y., Monroe, C. and O’Brien, J.L. “Quantum computers.” Nature 464.4 (2010): 45-53.
Prodromakis, T., Toumazou, C.and Chua, L. “Two centuries of memristors.” Nature Materials 11(2012): 478-481.
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