T.V. Utas scite author profile

The ability of scanning tunneling microscopy to manipulate selected C(60) molecules within close packed C(60) arrays on a (Au,In)/Si(111) surface has been examined for mild conditions below the decomposition threshold. It has been found that knockout of the chosen C(60) molecule (i.e., vacancy formation) and shifting of the C(60) molecule to the neighboring vacant site (if available) can be conducted for wide ranges of bias voltages (from -1.5 to +0.5 V), characteristic manipulation currents (from 0.02 to 100 nA) and powers (from 2 × 10(-8) to 0.1 μW). This result implies that the manipulation is not associated with the electrical effects but rather has a purely mechanical origin. The main requirement for successful C(60) knockout has been found to be to ensure a proper 'impact parameter' (deviation from central impact on the C(60) sphere by the tip apex), which should be less than ~1.5 Å. A certain difference has been detected for the manipulation of C(60) in extended molecular arrays and molecular islands of a limited size. While it is possible to manipulate a single C(60) molecule in an array, in the case of a C(60) island it appears difficult to manipulate a given fullerene without affecting the other ones constituting the island.

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Self-assembly of C60 fullerenes on quasi-one-dimensional Si(111)4 × 1-In surface

Kotlyar¹,

Olyanich²,

Utas³

et al. 2012

Surface Science

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T.V. Utas

Surface reconstructions in Pb/Si(100) system: Composition and atomic arrangement

STM study of the early stages of the Cr/Si(1 1 1) interface formation

The manipulation of C₆₀in molecular arrays with an STM tip in regimes below the decomposition threshold

Self-assembly of C60 fullerenes on quasi-one-dimensional Si(111)4 × 1-In surface

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T.V. Utas

Surface reconstructions in Pb/Si(100) system: Composition and atomic arrangement

STM study of the early stages of the Cr/Si(1 1 1) interface formation

The manipulation of C60in molecular arrays with an STM tip in regimes below the decomposition threshold

Self-assembly of C60 fullerenes on quasi-one-dimensional Si(111)4 × 1-In surface

Contact Info

Product

Resources

About

The manipulation of C₆₀in molecular arrays with an STM tip in regimes below the decomposition threshold