I contributed to a modelling paper now out in Nature Communications, led by Dr. Trang Nguyen (in the group of Prof. Naomi Levine) which gives insight into the coupled dynamics of microbes and the marine snow particles they thrive on. Check the paper here! Illustration from Nguyen et al. 2022, CC BY 4.0
Before joining ETH, I obtained my PhD at the Department of Applied Maths and Theoretical Physics (DAMTP) at the University of Cambridge (UK) in the group of Prof. Ray Goldstein.
My main research interests include microbial interactions, microswimmers and soft matter physics, in particular air-water interfaces. I investigate these topics by combining experiments with mathematical modelling.
I contributed to a book chapter in the second edition of "The Marine Microbiomes", describing how the microscale physics in the ocean create the complex landscape of resources marine bacteria have to navigate. It's a pleasure to see it published.
Jess Berry, from the University of Cambridge, led this study aiming to design and test a microfluidic chip enabling quantitative and accurate testing of drugs preventing blood clotting. I contributed to the development of the chip, and am very happy to this work published in Lab on a Chip! Check the paper here!
Our paper on the coupling between marine snow sinking speed and microbial degradation is just published in Nature Geosciences. I developped a mathematical model to extend the experimental results of my colleagues Uria Alcolombri to realistic marine snow distributions. Our work made it to the ETH news. Check the paper here, and the code behind the model here.
With my colleagues Dr. Jeanette Wheeler, Dr. Clara Martines-Pérez and Juanita Lara-Gutierrez, we organised a workshop for teenagers during the outreach event Scientifica 2021 happening all over ETH and UHZ. Taylor's robots, play-dough plankton sinking in glycerol and microscopy of daphnia were part of the fun!
The figure designed by lead author Theresa Jakuszeit for our paper on chemokinesis was chosen to be on cover of the March Issue of EPJE.
I had the chance to contribute to a freshly published paper on microbial mutualisms. Led by Hannah Laeverenz Schlogelhofer under the supervision of Otti Croze, with further collaborators in Sweden and UK, the study combine mathematical modelling with nano-SIMS to reveal the hidden dynamics of mutualistic nutrient exchanges. Very pleased to see the paper in PLoS ONE, here.
With Margit Peaudecerf, we assembled and released a Jupyter notebook presenting some of the concepts behind the use of single particle tracking for probing the biophysical properties of the cell cytosol. Lots of interactive simulations! Download the whole repository from GitHub or open the notebook in Binder to start simulations directly in your browser!
We just published our paper on building an online platform linking hospital needs with academic resources during the COVID pandemic in Frontiers in Public Health, as a support for similar initiatives across the globe. I contributed to the early development and staffing of the initiative. News items at EPFL and on Frontiers blog, and full paper here.
The Journal of Infectious Diseases has just published our letter (free access) suggesting UVB on their own might not entirely explain the observed inactivation of SARS-CoV-2 in sunlight. This letter was motivated by the publication in the same journal of experimental results on inactivation rates of SARS-CoV-2 in sunlight, showing rates differing strongly from established theories including UVB only. Check also our related preprint.
In their recently published paper in the Journal of Computational Physics, to which I contributed, Raphael Egan and colleagues present a new parallel solver for incompressible flows, and demonstrate its performance by computing fully developped turbulent flows over a gratting-based super-hydrophobic surface (SHS). Check out the paper free of charge for 50 days here!
I have been awarded together with Prof. Paolo Luzzatto-Fegiz, Prof. Julie A. McMurry, and Prof. Julien R. Landel a VRC COVID-19 Seed Grant of 25k$ from UC Santa Barbara for our project on the role of UVA in inactivating SARS-CoV2 and its potential use in air-purifying respirators. You can find here our related preprint.
As ETH went into lockdown with the first wave of COVID-19 pandemic, I contributed with several colleagues from ETH to the development and staffing of a web platform to link needs of diagnostic labs and hospitals for equipment and consumables with resources available in academic labs. This development was extremely fast to serve the rapid increase in needs, which I moderated with others for several months. In parallel in the summer a second version of the platform was finalized (in an effort led by EPFL), available here.
Our work on the modelling of super hydrophobic surfaces (SHSs) contaminated by surfactants, and their associated reduced drag reduction properties, has just been published in Journal of Fluid Mechanics!
I have been awarded together with Dr. Jeanette Wheeler an ETH Career Seed Grant of 30kCHF for our joint-project investigating bacterial chemotaxis response to aerosol deposition in the microlayer - the thin layer at the top of the water column. We will start working on it in September for one year!
- U. Alcolombri, F. J. Peaudecerf, V. I. Fernandez, L. Behrendt, K. Soo Lee and R. Stocker, "Sinking accelerates the degradation of organic particles by marine bacteria" Nature Geosciences, 14:775-780 (2021) link
- T. Nguyen, E. J. Zakem, A. Ebrahimi, J. Schwartzman, T. Calgar, U. Alcolombri, F. J. Peaudecerf, T. Hwa, R. Stocker, O. X. Cordero and N. M. Levine, "The effect of microbial activities on ocean-scale carbon transport" submitted (2021)
- J. Berry, F. J. Peaudecerf, N. A. Masters, K. B. Neeves, R. E. Goldstein and M. T. Harper, "Development of a novel “arterial thrombosis-on-a-chip” microfluidic device." Lab on a Chip, 21:4104 (2021) download pdf link
- P. Luzzatto-Fegiz, F. Temprano-Coleto, F. J. Peaudecerf, J. R. Landel, Y. Zhu, and J. A. McMurry, "UVA radiation could be a significant contributor to sunlight inactivation of SARS-CoV-2" submitted (2020) bioRxiv link
- H. Laeverenz Schlogelhofer, F. J. Peaudecerf, F. Bunbury, M. J. Whitehouse, R. A. Foster, A. G. Smith, O. A. Croze, "Combining SIMS and mechanistic modelling to reveal nutrient kinetics in an algal-bacterial mutualism" PLoS ONE, 16(5): e0251643 (2021) download pdf link
- P. Luzzatto-Fegiz, F. Temprano-Coleto, F. J. Peaudecerf, J. R. Landel, Y. Zhu, and J. A. McMurry, "UVB radiation alone may not explain sunlight inactivation of SARS-CoV-2" Journal of Infectious Diseases, jiab070 (2021) link (free access)
- J.-D. Courcol, C. F. Invernizzi, Z. C. Landry, M. Minisini, D. A. Baumgartner, S. Bonhoefer, B. Chabriw, E. E. Clerc, M. Daniels, P. Getta, M. Girod, K. Kazala, H. Markram, A. Pasqualini, C. Martínez-Pérez, F. J. Peaudecerf, M. S. Peaudecerf, U. Pfreundt, B. R.K. Roller, J. Słomka, M. Vasse, J. D. Wheeler, C. M. J. A. Metzger, R. Stocker and F. Schürmann, "ARC: An open web-platform for request/supply matching for a prioritized and controlled COVID-19 response" Frontiers in Public Health, 9:607677 (2021) link
- T. Jakuszeit, J. Lindsey-Jones, F. J. Peaudecerf, O.A. Croze,
"Migration and accumulation of bacteria with chemotaxis and chemokinesis"
Associated news releases: EurekaAlert! and EPJE News page
- R. Egan, A. Guittet, F. Temprano-Coleto, T. Isaac, F. J. Peaudecerf,
J. R. Landel, P. Luzzatto-Fegiz, C. Burstedde, F. Gibou,
"Direct Numerical Simulation of Incompressible Flows on Parallel Octree Grids"
Journal of Computational Physics,
JCP versionPublished version
Accepted manuscriptAccepted manuscript
- J. Landel, F. J. Peaudecerf, F. Temprano-Coleto, F. Gibou, R.E. Goldstein, P. Luzzatto-Fegiz, "A theory of the slip and drag of superhydrophobic surfaces with surfactant" Journal of Fluid Mechanics, 883:A18 (2020) arXiv link
- F. J. Peaudecerf, J. R. Landel, R. E. Goldstein, and P. Luzzatto-Fegiz, "Impact of surfactant on the drag reduction potential of superhydrophobic surfaces" Proceedings of the 5th European Conference on Microfluidics – μFlu18 / 3rd European Conference on Non-Equilibrium Gas Flows – NEGF18, 387-389 (2018) download pdf
- F. Temprano-Coleto, F. J. Peaudecerf, J. R. Landel, F. Gibou, and P. Luzzatto-Fegiz, "Soap opera in the maze: geometry matters in Marangoni flows" Physical Review Fluids, 3:100507 (2018) download pdf link
- F. J. Peaudecerf, F. Bunbury, V. Bhardwaj, M. A. Bees, A. G. Smith, R. E. Goldstein, O. A. Croze, "Microbial mutualism at a distance: the role of geometry in diffusive exchanges", Physical Review E, 97:022411 (2018) download pdf link
- F. Temprano-Coleto, F. Peaudecerf, J. Landel, F. Gibou, and P. Luzzatto-Fegiz, "Soap opera in the maze: geometry matters in Marangoni flows" Gallery of Fluid Motion, American Physical Society, Division of Fluid Dynamics, (2017) link
- F. Peaudecerf, J. R. Landel, R. E. Goldstein, and P. Luzzatto-Fegiz, "Traces of surfactants can severely limit the drag reduction of superhydrophobic surfaces", PNAS, 114:7254-7259 (2017) download pdf link
- S. Widder et al., "Challenges in microbial ecology: building predictive understanding of community function and dynamics.", The ISME Journal, 10:2557–2568 (2016) download pdf link
- F. Peaudecerf and R. Goldstein, "Feeding ducks, bacterial chemotaxis and the Gini index", Physical Review E, 92:022701 (2015) download pdf link
- K. Alim, G. Amselem, F. Peaudecerf, M. Brenner, and A. Pringle, "Random network peristalsis in Physarum polycephalum organizes fluid flows across an individual", PNAS, 110:13306-13311 (2013) link
- W. Kim, F. Peaudecerf, M. W. Baldwin, and J. W. M. Bush, "The hummingbird’s tongue: a self-assembling capillary syphon", Proceedings of the Royal Society B, 279:4990 (2012) link
- J. W. M. Bush, F. Peaudecerf, M. Prakash, and D. Quéré, "On a tweezer for droplets", Advances in Colloid and Interface Science, 161:10--14 (2010) link
Outreach and teaching
I have supervised in Mathematical Biology at the Department of Applied Mathematics and Theoretical Physics, University of Cambridge.
With Margit Peaudecerf, we assembled and released a Jupyter notebook presenting some of the concepts behind the use of single particle tracking for probing the biophysical properties of the cell cytosol. This material was used for the Block Course at the Institute for Biochemistry (ETH Zurich) and targets biology students. It contains several interactive simulations aiming at demonstrating Brownian motion in a cell. The whole repository can be downloaded from GitHub. ALternatively, the notebook can be launched in an executable environment in Binder to start simulations directly in the web browser with no required local installation.
I have developed several projects for reaching out to non-specialist audiences and share the excitement of science. A list of these project is available on this dedicated page.
2017-2020: I have received funding from the European Union’s Horizon 2020 research and innovation programme under the Marie Sklodowska-Curie grant agreement No 798411.
2019-2020: I have received funding from an ETH Zurich Career Seed Grant.
Department of Civil, Environmental and Geomatic Engineering
Institute for Environmental Engineering
Stefano Franscini Platz 5