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inaccessible regimes. Work in the lab combines optics, protein engineering, chemistry, electrophysiology, simulation, and theory. We work at the levels of individual molecules, single cells, and whole
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. The researcher will take primary responsibility for one or more of the following projects, depending on their interests and qualifications: (i) engineering robust strains of light-attracted, light-indifferent, and
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strongly interdisciplinary. Specifically, our star technique is scanning electrochemical cell microscopy (SECCM) , a powerful electrochemical imaging technique for interrogating electrochemical processes
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applies new tools to study biology. We push the limits of physics and chemistry to make measurements in previously inaccessible regimes. Work in the lab combines optics, protein engineering, chemistry
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microscopy (SECCM) , a powerful electrochemical imaging technique for interrogating electrochemical processes at nanoscale sites of complex electrodes. We aim to expand the capability and applications