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This paper demonstrates a novel method to perform micropart (370 times 370 times 150 mum3) delivery to receptor sites (20 times 10 array) with a batch assembly process that leads to 100% yield within tens of seconds. The delivery mechanism is statistically characterized and a chemical kinetics inspired model previously proposed is extended. Based on this understanding, repeatable and programmable...
We enhance the efficiency of assembly of microparts in batch dry assembly methods studied previously by our group. Here we study the system dynamics with the addition of a few non-participating millimeter scale parts that act as 'catalysts'. We present experimental results that show 25-50% reduction in acceleration needed to trigger part motion and up to 4 times increase in concentration of parts...
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