We develop custom microsystems to study cancer cell adaptive behavior, that we use as an inspiration to design novel functionalities in artificial systems
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Sensing cancer adaptive behavior in vitro
Sensing cancer adaptive behavior in vitro
We aim at contributing to the understanding of mechanical adaptation in cancer cells and cell networks, and their bidirectional correlation with electric signaling. We aim at further manipulating electromechanical behavior in cancer for fundamental science, diagnostics, therapeutics, and artificial intelligence.
Designing multiscale intelligent artificial systems
Designing multiscale intelligent artificial systems
We identify unconventional sources of inspiration in the biological world to design self-programmable materials and adaptive architectures.
We believe to be all set to make lasting impact. However, to expand our directions we need financial support.
Do not hesitate to contact us if you are interested in discussing mutual interests and enable a faster rise.
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