Abstract:Nanoparticle patterning on a vibrating solid surface according to the vibration modes of the solid is the result of extremely high solid surface acceleration and persistent flow beyond the steady boundary layer. The solid surface acceleration magnitude increased proportionally to the square of vibration angular frequency. The tens-of-megahertz frequency cause the surface acceleration to reach to an order of 10 7 m/s 2 , and thus providing a substantial impact force when a nanoparticle fall on the solid surface… Show more
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