CORDIS Project
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This project develops active microrheology to investigate stress transmission in complex fluids, including biological gels and living cells. By using holographic optical tweezers and confocal imaging, it aims to enhance understanding of mechanotransduction in cellular environments.
Due to its simplicity of application, the economy of its sample size and its non invasive nature, microrheology proves an ideal tool for probing mechanical properties of complex environments.
Conventionally, microrheology is based on translating the diffusive motion of colloidal particles into the elastic properties of the diffusing medium by means of linear response and the fluctuation-dissipation theorem.
However, non linear processes such as stress transduction in cellular environments and st…
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