R
Ryan C. Bailey
Researcher at University of Michigan
Publications - 112
Citations - 6214
Ryan C. Bailey is an academic researcher from University of Michigan. The author has contributed to research in topics: Silicon photonics & Medicine. The author has an hindex of 37, co-authored 105 publications receiving 5705 citations. Previous affiliations of Ryan C. Bailey include Mayo Clinic & University of Illinois at Urbana–Champaign.
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Journal ArticleDOI
Label-Free Biosensor Arrays Based on Silicon Ring Resonators and High-Speed Optical Scanning Instrumentation
Muzammil Iqbal,Martin A. Gleeson,Bradley Spaugh,Frank Tybor,William Gunn,Michael Hochberg,Tom Baehr-Jones,Ryan C. Bailey,L. Cary Gunn +8 more
TL;DR: A platform for real-time binding assays on sensor arrays based on silicon ring resonators is presented in this article, where an array of 32 sensors is interrogated simultaneously and 24 simultaneous binding curves are produced.
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Synthesis and Optical Properties of ``Branched'' Gold Nanocrystals
TL;DR: In this paper, the authors reported the synthesis of new "branched" gold nanocrystals in high yield (over 90%) via a wet-chemical route, which exhibited a shape-dependent plasmon resonance that is red-shifted by 130−180 nm from the spherical particle wavelength.
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Label-free quantitation of a cancer biomarker in complex media using silicon photonic microring resonators.
TL;DR: The use of silicon-on-insulator microring optical resonator arrays for the robust and label-free detection of a clinically important protein biomarker in undiluted serum, using carcinoembryonic antigen (CEA) as the test case is demonstrated.
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DNA-Encoded Antibody Libraries: A Unified Platform for Multiplexed Cell Sorting and Detection of Genes and Proteins
TL;DR: The method of DNA-encoded antibody libraries (DEAL) for spatially multiplexed detection of ssDNAs and proteins as well as for cell sorting, all on the same diagnostic platform, based upon the coupling of ssDNA oligomers onto antibodies which are then combined with the biological sample of interest.
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Optical properties of metal nanoshells
TL;DR: In this article, a combination of theory and experiment designed to elucidate the properties of gold nanoshells is presented, showing that 2−5 nm pinholes have only a small effect on the extinction spectra; however, they lead to local electric fields that are enhanced by a factor of 3−4 close to the plasmon maximum.