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communities, understand microbial interactions, and create biological solutions based on naturally occurring microorganisms. The project is conducted in close collaboration with the Department of Design
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neuroscience research. The work in the Glia–Immune Interactions laboratory centers on the glial-lymphatic (glymphatic) system, a clearance pathway for solutes and proteins in the brain, and its role in CNS
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of acoustofluidics, including the nonlinear interactions between acoustic waves and fluids across different frequency regimes. Your research will also involve applying acoustofluidic technology to mechanobiology
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group consists of four associate researchers and one PhD student. Within the group, we value a positive work environment characterized by respect and care in our interactions. We continuously strive