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metrology. Leveraging state-of-the-art microfabrication capabilities, we are combining micro- and nano-mechanics with photonics and plasmonics to develop novel types of probes and modalities of nanoscale
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on incorporating novel, high-throughput forms of single particle EV detection schemes involving nano-flow cytometry, microfluidics, plasmonic or fluorescence imaging using nanoparticles, droplet digital PCR and/or
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-speed microscopy to accelerate assay imaging and plasmonic scattering microscopy to characterize ECM interactions and their impact on assay reproducibility. key words Plasmon; Imaging; Scattering
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dynamics, and other phenotypic characteristics, in single cells. Imaging modes that employ fluorescence, transmitted light, quantitative phase, and/or surface plasmon resonance microscopy may be used
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simulation, complementary biophysical techniques such as surface plasmon resonance, and advanced data analysis techniques, neutron reflectivity has proven to have unique advantages for studying the structural
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of the system. This model can be extended to include electromagnetic effects such as plasmon-phonon coupling that may be important for electronic nanomaterials. We propose to apply the CGF technique