Application of a Non-equilibrium Green's function method to electrical transport through single molecular-assembled metallic nanoparticles
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ABSTRACTWe describe a theory of coulomb blockade of tunneling through molecular-assembled metallic nanoparticles based on the Non-equilibrium Green's function method. We apply the theory to study current transport through a single metallic nanoparticle connected to the leads through two molecular bridges with arbitrary metal-molecule coupling and electron-molecular vibration coupling. We present model calculations of the current-voltage characteristics.
2010 ◽
Vol 9
(3-4)
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pp. 237-242
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2011 ◽
Vol 13
(4)
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pp. 1301-1306
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2007 ◽
2008 ◽
Vol E91-C
(1)
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pp. 105-109
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