Field-Portable Nanoparticle and Virus Sizing Enabled by On-Chip Microscopy and Vapor-Condensed Nanolenses

Euan McLeod; Euan McLeod; T. Umut Dincer; T. Umut Dincer; Muhammed Veli; Muhammed Veli; Yavuz N. Ertas; Chau Nguyen; Wei Luo; Wei Luo; Alon Greenbaum; Alon Greenbaum; Alborz Feizi; Aydogan Ozcan; Aydogan Ozcan; Aydogan Ozcan; Aydogan Ozcan

doi:10.1364/CLEO_SI.2015.STu2K.6

CLEO: 2015
OSA Technical Digest (online) (Optica Publishing Group, 2015),
paper STu2K.6
•https://doi.org/10.1364/CLEO_SI.2015.STu2K.6

Field-Portable Nanoparticle and Virus Sizing Enabled by On-Chip Microscopy and Vapor-Condensed Nanolenses

Euan McLeod, T. Umut Dincer, Muhammed Veli, Yavuz N. Ertas, Chau Nguyen, Wei Luo, Alon Greenbaum, Alborz Feizi, and Aydogan Ozcan

CLEO: Science and Innovations 2015

San Jose, California United States
10–15 May 2015
ISBN: 978-1-55752-968-8

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Computational Bioimaging (STu2K)

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E. McLeod, T. U. Dincer, M. Veli, Y. N. Ertas, C. Nguyen, W. Luo, A. Greenbaum, A. Feizi, and A. Ozcan, "Field-Portable Nanoparticle and Virus Sizing Enabled by On-Chip Microscopy and Vapor-Condensed Nanolenses," in CLEO: 2015, OSA Technical Digest (online) (Optica Publishing Group, 2015), paper STu2K.6.

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Abstract

Vapor-condensed nanolenses make label-free lensfree holographic microscopy sensitive to individual particles 40 nm and larger. Detected signals correlate with particle size with accuracy ±11 nm. Automated image processing measures >10⁵ particles within a single field-of-view.

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