Nanoelectronics approach based on nano structures & nanomaterial
Nanoelectronics approach based on nano structures & nanomaterial
- Author(s): Ravindiran and P. Shankar
- DOI: 10.1049/cp.2011.0457
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- Author(s): Ravindiran and P. Shankar Source: International Conference on Sustainable Energy and Intelligent Systems (SEISCON 2011), 2011 p. 721 – 726
- Conference: International Conference on Sustainable Energy and Intelligent Systems (SEISCON 2011)
- DOI: 10.1049/cp.2011.0457
- ISBN: 978-9-38043-000-3
- Location: Chennai, India
- Conference date: 20-22 July 2011
- Format: PDF
This paper gives detailed view on the Nanoelectronics and the approaches adopted for improving the speed of the device without compromising the performance. Performance of the device is mainly based on the speed of operation, Operating voltage and size of the device. In the recent years the two main approaches adopted for optimizing the device performance are new and modified device architectures and using alternate materials which are different from the normal materials used for electronics. Device structures have been modified and designed according to the application. Device modelling is the approach adopted by various companies and research groups in the universities to modify and design new device structures using device modelling and simulation software's. Performance of the device can be improved by using alternate materials such as GaAs, ZnO, BiTe, In, TiO, Fe, Co, Al, Zr etc. Materials other than silicon and germanium with better optoelectronic and electronic properties have been used to improve the performance of the device. The property of the materials can be improved by doping different materials at different compositions and preparing nanomaterials by using different preparation techniques. Materials property is analyzed by using different characterization techniques such as XRD, SEM, TEM, UV, LCR, etc.
Inspec keywords: semiconductor doping; nanoelectronics; nanostructured materials
Subjects: Semiconductor doping; Methods of nanofabrication and processing; Nanometre-scale semiconductor fabrication technology
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