Colloidal Interactions and Self-Assembly Using DNA Hybridization
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Abstract
The specific binding of complementary DNA strands has been suggested as an ideal method for directing the controlled self-assembly of microscopic objects. We report the first direct measurements of such DNA-induced interactions between colloidal microspheres, as well as the first colloidal crystals assembled using them. The interactions measured with our optical tweezer method can be modeled in detail by well-known statistical physics and chemistry, boding well for their application to directed selfassembly. The microspheres’ binding dynamics, however, have a surprising power-law scaling that can significantly slow annealing and crystallization.
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Copyright American Physical Society. Reprinted from Physical Review Letters, Volume 94, Issue 5, Article 058302, February 2005, 4 pages. Publisher URL: http://dx.doi.org/10.1103/PhysRevLett.94.058302