Assistant Professor
Physics
Research Interests
In our lab, we studythe complex interactions between microorganisms and their environment. Using tools of microfluidics, quantitative video microscopy and image analysis we investigate thetransport of microorganisms: from natural and complex environments, like viscoelastic and anisotropic body fluids; to the effect of the topology of the confining structures, like medical catheters or porous media; to untapping the potential of new “active” systems propelled by swimming microorganisms. Our multidisciplinary lab aims at preventing microorganism-borne medical conditions, developing novel live materials, and utilizing microorganisms for cleaning the environment.
Selected publications
- N. Figueroa-Morales, R. Soto, G. Junot, T. Darnige, C. Douarche, V. Martinez, A. Lindner, and E. Clément, “3D spatial exploration by E. coli echoes motor temporal variability,” Phys. Rev. X, vol 10, no. 2, p. 021004, 2020.
- N. Figueroa-Morales, A. Rivera, R. Soto, A. Lindner, E. Altshuler, and E. Clément, “E. coli "super-contaminates" narrow ducts fostered by broad run-time distribution,” Science Advances, vol. 6, no. 11, eaay0155, 2020.
- N. Figueroa-Morales, L. Dominguez-Rubio, T. L. Ott, and I. S. Aranson, “Mechanical shear controls bacterial penetration in mucus,” Scientific reports, vol. 9, no. 1, p. 9713, 2019.
- A. J. Mathijssen, N. Figueroa-Morales, G. Junot, É. Clément, A. Lindner, and A. Zöttl, “Oscillatory surface rheotaxis of swimming E. coli bacteria,” Nature communications, vol. 10, no. 1, p. 3434, 2019.
- N. Figueroa-Morales, G. L. Mino, A. Rivera, R. Caballero, E. Clément, E. Altshuler, and A. Lindner, “Living on the edge: transfer and traffic of E. coli in a confined flow,” Soft matter, vol. 11, no. 31, pp. 6284–6293, 2015.