A reusable microfluidic device provides continuous measurement capability and improves the detection limit of digital biology.

@article{Araci2016ARM,
  title={A reusable microfluidic device provides continuous measurement capability and improves the detection limit of digital biology.},
  author={Ismail Emre Araci and M. C. Hern{\'a}ndez Robles and Stephen R Quake},
  journal={Lab on a chip},
  year={2016},
  volume={16 9},
  pages={
          1573-8
        }
}
Current digital biology platforms lack the ability to perform continuous measurements for transient analysis. A fundamental challenge is to perform complex fluidic manipulation processes such as washing and mixing in individual reaction volumes. Here, we present a reusable digital biology platform where the reaction compartmentalization and commencement are controlled by micromechanical valves fabricated in high density through microfluidic very large scale integration (mVLSI) technology… CONTINUE READING

References

Publications referenced by this paper.
Showing 1-10 of 16 references