Title :
Possible mechanisms of conductivity in the combined AFM / STM and growing quantum dots of colloidal gold
Author :
Krevchik, V.D. ; Semenov, M.B. ; Shcherbakov, M.A. ; Zaytsev, R.V. ; Krevchik, P.V. ; Egorov, I.A. ; Filatov, D.O.
Author_Institution :
Dept. of Phys., Penza State Univ., Penza, Russia
Abstract :
We have obtained tunneling current - voltage characteristics for growing quantum dots of colloidal gold in the combined atomic - force and scanning tunneling microscope. It is assumed that the main contribution to current gives the ionic conductivity. A qualitative comparison of the tunneling current - voltage characteristics with the theoretical curve for field dependence of the probability of 2D - dissipative tunneling with the influence of two local phonon modes in wide - band matrix has been fulfilled. A qualitative agreement of the experimental and theoretical curves, suggesting a possible contribution of the dissipative tunneling in the tunnel current through a growing quantum dot under the needle of the cantilever, which can be amplified in clusters ranging in size from 1 to 5 nm in thinner films, has been also established.
Keywords :
atomic force microscopy; colloids; gold; ionic conductivity; metal clusters; phonons; quantum dots; scanning tunnelling microscopy; tunnelling; 2D-dissipative tunneling probability; AFM; Au; STM; atomic force microscopy; cantilever needle; colloidal gold; dissipative tunneling; ionic conductivity; local phonon modes; quantum dot growth; scanning tunneling microscopy; thinner films; tunneling current-voltage characteristics; wide-band matrix; Conductivity; Current-voltage characteristics; Films; Gold; Phonons; Quantum dots; Tunneling; conducting atomic force microscopy; quantum dots; quantum tunneling with dissipation; tunnel current-voltage characteristics;
Conference_Titel :
Control and Communications (SIBCON), 2015 International Siberian Conference on
Conference_Location :
Omsk
Print_ISBN :
978-1-4799-7102-2
DOI :
10.1109/SIBCON.2015.7147064
