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current clamp recordings in neurons. Using optogenetics, photolytic uncaging, chemogenetics, fluorescent biosensors, electrical stimulation, and application of pharmacologic compounds during patch clamp
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experience in the development of biosensors, preferably applied to the biomedical field, ranging from the design and optimization of sensory platforms to validation in relevant healthcare contexts. 5
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. The candidate is expected to conduct research focused on (a) development, investigation, and application of novel genetically encoded biosensors. Projects involve protein engineering, computational modeling
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Science Education. The molecular plasmonics group develops plasmonic and nanophotonic biosensors with single-molecule sensitivity. The team is multidisciplinary and hosts physicists, chemists, and
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-qualified biosensors for detecting molecular biosignatures during planetary exploration missions. The LMCOOL system uses integrated photonic circuits with asymmetric Mach-Zehnder Interferometer (aMZI) sensors
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develops space-qualified biosensors for detecting molecular biosignatures during planetary exploration missions. The LMCOOL system uses integrated photonic circuits with asymmetric Mach-Zehnder
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library design, DNA probe design, DNA based cell staining, multiplexed protein/DNA bioassays, various DNA technologies, PCR, RNA sequencing, microarray-based biosensor, omics data processing, artificial
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library design, DNA probe design, DNA based cell staining, multiplexed protein/DNA bioassays, various DNA technologies, PCR, RNA sequencing, microarray-based biosensor, omics data processing, artificial
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, cutting live brain slices on a vibratome, and performing voltage and current clamp recordings in neurons. Using optogenetics, photolytic uncaging, chemogenetics, fluorescent biosensors, electrical
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University of North Carolina at Chapel Hill | Chapel Hill, North Carolina | United States | 3 months ago
chemistry, to study and develop novel environment-sensing dyes and protein-dye conjugates, including structures for single molecule imaging in vivo, and for multiplexed biosensor/optogenetic imaging (J. Am