Rotation of a single molecule within a supramolecular bearing
JK Gimzewski, C Joachim, RR Schlittler, V Langlais… - Science, 1998 - science.org
JK Gimzewski, C Joachim, RR Schlittler, V Langlais, H Tang, I Johannsen
Science, 1998•science.orgExperimental visualization and verification of a single-molecule rotor operating within a
supramolecular bearing is reported. Using a scanning tunneling microscope, single
molecules were observed to exist in one of two spatially defined states laterally separated by
0.26 nanometers. One was identified as a rotating state and the other as an immobilized
state. Calculations of the energy barrier for rotation of these two states show that it is below
the thermal energy at room temperature for the rotating state and above it for the …
supramolecular bearing is reported. Using a scanning tunneling microscope, single
molecules were observed to exist in one of two spatially defined states laterally separated by
0.26 nanometers. One was identified as a rotating state and the other as an immobilized
state. Calculations of the energy barrier for rotation of these two states show that it is below
the thermal energy at room temperature for the rotating state and above it for the …
Experimental visualization and verification of a single-molecule rotor operating within a supramolecular bearing is reported. Using a scanning tunneling microscope, single molecules were observed to exist in one of two spatially defined states laterally separated by 0.26 nanometers. One was identified as a rotating state and the other as an immobilized state. Calculations of the energy barrier for rotation of these two states show that it is below the thermal energy at room temperature for the rotating state and above it for the immobilized state.
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