Highlights

Chenggang Tao, T. Stasevich, W.G. Cullen, T.L. Einstein and E.D. Williams
Nano Lett. doi:10.1021/nl070210a (2007)

Perfect rings of C60 molecules, lined up around circular layers of silver, reveal an important property of nanoelectronic contacts: thermal energy causes the structures to fluctuate. The movement of the molecules in the rings is captured by making repeated (“time-lapse”) STM images. The results show that the ring vibrates like a mechanical object, with well-defined shape changes known as “modes.” Such metal-molecule interface vibrations will create unique electrical signatures in nanoelectronic devices.

Molecular Nano-Rings

Top left: False color images, measured using scanning tunneling microscopy (STM), of C60 molecules arranged around the inside edge of a circular “hole” of Ag, and around a circular plateau. Individual C60 molecules are easily seen in the smaller ring at lower left, and in the zoom-in image of a segment of the edge of the ring.

Left: Illustration of the vibration modes that distort a mechanical ring, for instance a musical chime, when it vibrates to create a musical tone. Time resolved images of the molecular ring reveal the same types of modes.

Copyright (2007) University of Maryland, College Park. All rights reserved. Permission to redistribute the contents without alteration is granted to educational institutions for non-profit administrative or educational purposes with proper citation of the literature reference and with credit given to the NSF-MRSEC at the University of Maryland, College Park as the source.