D
David Erickson
Researcher at Cornell University
Publications - 319
Citations - 13454
David Erickson is an academic researcher from Cornell University. The author has contributed to research in topics: Photonic crystal & Optical tweezers. The author has an hindex of 57, co-authored 310 publications receiving 12288 citations. Previous affiliations of David Erickson include Mayo Clinic & University College of Engineering.
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Optical manipulation of nanoparticles and biomolecules in sub-wavelength slot waveguides.
TL;DR: An approach to optofluidic transport that overcomes limitations, using sub-wavelength liquid-core slot waveguides, and provides the ability to handle extended biomolecules directly.
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Integrated microfluidic devices
David Erickson,Dongqing Li +1 more
TL;DR: In this paper, the authors provide an in-depth look at the state-of-the-art in integrated microfludic devices for a broad range of application areas from on-chip DNA analysis, immunoassays and cytometry to advances in integrated detection technologies for and miniaturized fuel processing devices.
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Zeta-potential measurement using the Smoluchowski equation and the slope of the current-time relationship in electroosmotic flow.
TL;DR: This study presents a novel experimental technique to measure the zeta -potential of flat surfaces that combines the Smoluchowski equation with the measured slope of current-time relationship in electroosmotic flow.
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Smartphone based health accessory for colorimetric detection of biomarkers in sweat and saliva
TL;DR: A smartphone based accessory and method for the rapid colorimetric detection of pH in sweat and saliva is presented and trials to measure salivary pH over time are performed to monitor the effects of diet on oral health risks.
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Optofluidic microscopy—a method for implementing a high resolution optical microscope on a chip
Xin Heng,David Erickson,L. Ryan Baugh,Zahid Yaqoob,Paul W. Sternberg,Demetri Psaltis,Changhuei Yang +6 more
TL;DR: A novel microfluidics-based lensless imaging technique, termed optofluidic microscopy (OFM), and Caenorhabditis elegans imaging with an OFM prototype that gives comparable resolution to a conventional microscope and a measured resolution limit of 490 +/- 40 nm are reported.