Voltage and Viscosity Dependant DNA Translocation Through Solid State Nanopores

The effects of different voltages and solution viscosities on 3 kbp double stranded DNA translocating through 2 to 12 nanometer silicon nitride nanopores are investigated. The translocation time of an event has been found to be inversely proportional to the driving voltage, and to be increased nonlinearly with increased glycerol concentration.