Author: Jim
Professor McGrath holds a BS degree in Mechanical Engineering from Arizona State and a MS degree in Mechanical Engineering from MIT. He earned a PhD in Biological Engineering from Harvard/MIT's Division of Health Sciences and Technology. He then trained as a Distinguished Post-doctoral Fellow in the Department of Biomedical Engineering at the Johns Hopkins University. Professor McGrath has been on the Biomedical Engineering faculty at the University of Rochester since 2001 where he also serves as the director of the graduate program BME and associate director of the URNano microfab and metrology core. McGrath's research was focused on the phenomena of cell migration until 2007 when he founded the interdisciplinary Nanomembrane Research Group to development and apply silicon membrane technologies. Professor McGrath is also a co-founder and past president of SiMPore Inc., a company founded to commercially manufacture silicon membranes and related technologies.

Ultrathin Polymer Membranes with patterned, micrometric pores for organs-on-chip

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Solid- State Nanopores Integrated with Nanoporous Membranes for Enhanced Single-Molecule Counting of Low-Abundance Biomarkers

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Predicting the failure of silicon nanomembranes in burst pressure studies

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The importance of permeable substrates for proper vascular endothelial barrier function (preview)

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Journal Club: Preview from Sabrina Leslie – CLiC with flow

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Silicon Ideal to Culture Patient-On-a-Chip | Insight & Intelligenceā„¢ | GEN

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Self-assembled nanofibers sniff out explosives (NSF news piece from recent STTR awardee)

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Nair, R. R., et al. (2012). “Unimpeded permeation of water through helium-leak-tight graphene-based membranes.” Science 335(6067): 442-444.

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Imidazole functionalized graphene oxide/PEBAX mixed matrix membranes for efficient CO2 capture

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CVB Conference in Paris (July ’15)

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