We develop surface-modified 100 nm silica nanofluidic channels that change in measured conductivity upon exposure to single- or double-stranded DNA. Through careful monitoring of both electromigrative and advective current in the channel, we can detect nanomolar concentrations of DNA. These results can be exploited for inexpensive, all-electronic DNA sensors.
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| http://dx.doi.org/10.1039/c4cc09599e | DOI Listing |
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