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at nanoscale sites of complex electrodes. We aim to expand the capability and applications of this technique to demystify activity at complex electrodes over several length scales (nano- to macro), attempt new
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life-and-death struggle against lethal stresses in their microscopic world. We study how microbes adapt to their ever-changing environment, using simple and complex survival strategies. We hope to deeply
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at nanoscale sites of complex electrodes. We aim to expand the capability and applications of this technique to demystify activity at complex electrodes over several length scales (nano- to macro), attempt new
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complex survival strategies. We hope to deeply understand how bacteria react and respond to stress and use this knowledge to engineer useful functions in bacteria. We invite applications from postdoctoral