9,10-Dithioanthracene

9,10-Dithioanthracene (DTA) is the first molecule ever to be able to "walk" in a straight line by, in effect, mimicking the bipedal motion of a human being. It is an organic molecule composed of a coal tar derivative called anthracene linked to a pair of sulfur-bearing functional groups on either side (referred to as "linkers"), which serve as the molecule's "feet". When the compound is heated on a flat copper surface, the linkers raise up, alternating from side to side, and propel the molecule forward.

During testing at UC Riverside's [http://www.engr.ucr.edu/cnse Center for Nanoscale Science and Engineering,] the molecule took about 10,000 unassisted nano-scale steps, moving in a straight line without requiring the assistance of nano-rails or nano-grooves for guidance. As described by the research team leader, assistant professor of chemistry Ludwig Bartels, "Similar to a human walking, where one foot is kept on the ground while the other moves forward and propels the body, our molecule always has one linker on a flat surface, which prevents the molecule from stumbling to the side or veering off course." [ [http://www.newsroom.ucr.edu/cgi-bin/display.cgi?id=1166&type=print "Molecule Walks Like a Human",] UC Riverside News Release, September 26, 2005]

Researchers believe the project could lead to the development of molecular computers in which DTA or other similar molecules would function as nano-abacuses.

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