2006
DOI: 10.1016/j.snb.2005.03.102
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A new electro-osmotic pump based on silica monoliths

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Cited by 125 publications
(97 citation statements)
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“…A number of studies of electro-osmotic pumping have been reported. [52][53][54] For example, an electro-osmotic micropump was fabricated by packing the 3.5 µm diameter nonporous silica particles into 500 to 700 µm diameter fused-silica capillaries using the silicate frit fabrication process. 52 The micropump achieved pressures in excess of 20 atm and flow rates of 3.6 µL/min for 2 kV applied potential.…”
Section: Nonmechanical Approachmentioning
confidence: 99%
“…A number of studies of electro-osmotic pumping have been reported. [52][53][54] For example, an electro-osmotic micropump was fabricated by packing the 3.5 µm diameter nonporous silica particles into 500 to 700 µm diameter fused-silica capillaries using the silicate frit fabrication process. 52 The micropump achieved pressures in excess of 20 atm and flow rates of 3.6 µL/min for 2 kV applied potential.…”
Section: Nonmechanical Approachmentioning
confidence: 99%
“…Polymer based microfluidic devices are also getting much attention recent days. Polymer is resistant to chemicals and some are biocompatible for implantation by FDA [37]. PDMS has shown a number of advantages over other polymer materials (eg.…”
Section: Fabrication Of Microfluidic Devicesmentioning
confidence: 99%
“…The pump, using vortices shed by an oscillating ferromagnetic bar inspired by the behavior of swimming animals and flying insects, has a range of operation from 3 to 600 l min −1 . Wang et al 42 reported a high-pressure electro-osmosis micropump fabricated by bonding a silica monolithic matrix within a 100-m-inner-diameter fused silica capillary. The maximum flow rate and pressure generated by this pump were 2.9 l min −1 and 3 atm for de-ionized water at 6 kV applied voltage, respectively.…”
Section: Microfluidic Pumpmentioning
confidence: 99%