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October 31, 2005 - Volume 83, Number 44
- p. 9
Nanotechnology
Molecular Motor Spins On Surface
Light-driven rotors could lead to more complex nanoscale devices
Bethany Halford
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By anchoring a chiral helical alkene onto a gold nanoparticle, chemists in the Netherlands have created the first light-driven molecular rotary motor attached to a solid surface (Nature 2005, 437, 1337). This mounted molecule, the researchers say, “might be a first step toward the construction of more elaborate and functional nanosized mechanical devices” and perhaps systems to exploit solar energy.
Fastening a rotary molecule to something solid, as Ben L. Feringa and colleagues at the University of Groningen have done, brings these spinning systems closer to becoming useful nanomachines.
“Putting motors on a surface is important because it should make it easier for them to do useful things, like move themselves or cargo, or change the nature of the surface in response to a stimulus,” says T. Ross Kelly, a Boston College chemistry professor who made a molecular motor that runs on chemical fuel.
Feringa’s team uses two thiol groups to affix their molecular motor to a gold nanoparticle. Two eight-carbon legs link these thiols to the alkene motor. The researchers note that they chose this lengthy anchor to minimize any direct electronic interaction between the alkene and the gold particle.
The researchers start the motor’s rotation by photoisomerizing the double bond. This forces the methyl group on the molecule’s lone stereocenter into an energetically disfavored orientation. When heated, this unstable isomer undergoes a helical inversion, resulting in a net 180° rotation. This step also ensures unidirectional movement. Repeating the two isomerizations completes the 360° revolution.
Vincenzo Balzani, a molecular machine pioneer at Italy’s University of Bologna, notes that Feringa’s motor doesn’t do any work at present. He adds, however, that the system “has the intrinsic advantage of being light driven. It is indeed an important step toward the construction of artificial systems that, in the long run, will hopefully lead to the exploitation of solar energy for information processing or energy-conversion purposes.”
- Chemical & Engineering News
- ISSN 0009-2347
- Copyright © 2006 American Chemical Society
