Nanoelectronics: Current Generation, New Formulation of Ohm's Law and Conduction Modes by

Authors Yu.A. Kruglyak1 , P.A. Kondratenko2 , Yu.M. Lopatkin3
Affiliations

1 Odessa State Environmental University str. Lviv, 15, 65016 Odessa, Ukraine

2 National Aviation University, 1, Komarov ave. , 03058 Kyiv, Ukraine

3 Sumy State University, 2, Rimskiy-Korsakov str., 40007 Sumy, Ukraine

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Issue Volume 5, Year 2013, Number 1
Dates Received 18 January 2013; revised manuscript received 13 February 2013; published online 28 March 2013
Citation Yu.A. Kruglyak, P.A. Kondratenko, Yu.M. Lopatkin, J. Nano- Electron. Phys. 5 No 1, 01023 (2013)
DOI
PACS Number(s) 71.15.Mb, 71.20. – b, 73.22.Pr , 73.23.Ad, 84.32.Ff, 85.35. – p
Keywords Nnanoelectronics, Molecular electronics, Bottom-up, Electric current, Electrochemical potential, Fermi function, Elastic resistor, Conductivity modes, Ohm’s law, n-type conductors, p-type conductors, Graphene (23) .
Annotation General questions of electronic conductivity, current generation with the use of electrochemical potentials and Fermi functions, elastic resistor model, ballistic and diffusion transport, conductivity modes, n- and p-conductors and graphene, new formulation of the Ohm’s law are discussed in the frame of the «bottom-up» approach of modern nanoelectronics.

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