Did you know you can manipulate hundreds of microparticles using phototactic algae?
This is what we show in our last preprint, led by T. Laroussi and J. Bouvard: arxiv.org/abs/2509.08133
🧵👇
09.10.2025 14:38 — 👍 20 🔁 3 💬 1 📌 0
In the manuscript, we model these bioconvection rolls with simulations of phototactic advection-diffusion and demonstrate how to harness them for particle transport.
09.10.2025 14:38 — 👍 0 🔁 0 💬 0 📌 0
Depending on the particles’ density, they are either attracted to or repelled by the dense algae region, allowing various modes of micromanipulation.
09.10.2025 14:38 — 👍 0 🔁 0 💬 1 📌 0
But since these algae are slightly denser than water, concentrating them generates bioconvection rolls. These flows act on a much larger scale than individual algae and can thus efficiently transport large particles over millimetric distances!
09.10.2025 14:38 — 👍 0 🔁 0 💬 1 📌 0
Chlamydomonas reinhardtii is a phototactic alga. When exposed to a strong light stimulus, it swims away from it. This allows us to locally concentrate them with a light stimulus.
09.10.2025 14:38 — 👍 0 🔁 0 💬 1 📌 0
Did you know you can manipulate hundreds of microparticles using phototactic algae?
This is what we show in our last preprint, led by T. Laroussi and J. Bouvard: arxiv.org/abs/2509.08133
🧵👇
09.10.2025 14:38 — 👍 20 🔁 3 💬 1 📌 0
Our article on the junction of slender objects under tension has been published @pmmh-lab.bsky.social! We discuss a cool phenomenon found in numerous systems, from kirigamis, kuttsukigami from @abcroll.bsky.social, and inflatables to more traditional tearing/peeling
www.pnas.org/doi/10.1073/...
17.03.2025 16:13 — 👍 17 🔁 4 💬 2 📌 0
The 🪱 mania continues!
In our latest study, led by Rosa, we explored the locomotion and dynamics of living worms—acting as active polymers—navigating a porous environment made of 3D-printed pillar arrays. And we found something surprising...
13.02.2025 08:45 — 👍 16 🔁 3 💬 1 📌 0
Inspired by natural system, the non-linear properties of such `hairy channels' can be harnessed to build passive flow control systems such as relief valves, flow rectifiers, or more complex non-linear networks.
07.01.2025 16:47 — 👍 3 🔁 0 💬 0 📌 0
Coupling the two gives a reduced order fluid-structure interaction model that quantitatively reproduces the experiments. It also suggests that the system can be described by a single dimensionless parameter combining elastic, viscous and geometrical properties.
07.01.2025 16:47 — 👍 2 🔁 0 💬 1 📌 0
To rationalize it, I model the hair array as a deformable porous media whose size is dictated by the bending of individual hairs under fluid loading.
07.01.2025 16:47 — 👍 2 🔁 0 💬 1 📌 0
This yields a non-linear hydraulic resistance that I explore experimentally and theoretically for laminar flows.
07.01.2025 16:47 — 👍 1 🔁 0 💬 1 📌 0
When confined in a channel of size comparable to the hairs themselves and subject to a pressure driven flow, they strongly perturb the flow and if soft enough they bend and change the channel geometry significantly.
07.01.2025 16:47 — 👍 2 🔁 0 💬 1 📌 0
Many natural surfaces such as our skin, our tongue, or our blood vessels are covered with dense arrays of soft hair-like structures.
07.01.2025 16:47 — 👍 1 🔁 0 💬 1 📌 0
New preprint: arxiv.org/abs/2501.01875
"Dense array of elastic hairs obstructing a fluidic channel"
I guess it was time I post something here! Explanations below 🧵👇
07.01.2025 16:47 — 👍 24 🔁 6 💬 1 📌 0
Great initiative. Add me please :)
22.11.2024 08:29 — 👍 1 🔁 0 💬 1 📌 0
Postdoc @fluidlab, University of Amsterdam
PhD @LPENS
Biophysics of photosynthetic micro-organisms
easily fascinated
sdjambov.github.io
Fluid Physicist | PhD-ing at UIUC I Previously at ICTS-TIFR and IISc | Complex fluids, Dynamical systems, Turbulence, Planet Formation
Fond of maths, ecology, and literature | Neurodivergent | Queer 🏳️🌈| Ambedkarite✊🏿 | Dabbles in critical caste studies
Maître de conférences à l'Université Lyon 1. Enseigne la "science des matériaux" (IUT Lyon 1 département GMP) et fait de la recherche sur la "matière molle" (Institut Lumière Matière).
Parfois en anglais, mostly in French.
Assoc. Prof. @ NTU Singapore | #materials #fun #multifunctions #bioinspiration #3Dprinting #sustainability | https://hortenseleferrand.com
Unofficial bot by @vele.bsky.social w/ http://github.com/so-okada/bXiv https://arxiv.org/list/physics.flu-dyn/new
List https://bsky.app/profile/vele.bsky.social/lists/3lim7ccweqo2j
ModList https://bsky.app/profile/vele.bsky.social/lists/3lim3qnexsw2g
Grouillot de l'#ESR jusqu'en 2023, désormais sergent-chef sans carotte ni bâton. A part ça, papa, gastronome, hardos et comique troupier.
PhD student in mathematical biology/biophysics at Newcastle University, working on modelling the motility and chemo responses of microbes in complex environments
Assistant Professor @Cornell Civil & Environmental Engineering | Scalable MetaStructures Laboratory (SCALE Lab) | scalelab.engineering.cornell.edu | instagram.com/scalelab.cornell
Master's Research Assistant at Microscale Robotics Lab, Instituto di Biorobotica, Scuola Superiore Sant'Anna, Pisa, Italy
Focus on Monolayer formations of microparticles and the activity of resulting janus particles.
Author, aerospace engineer, science communicator. Writes with excessive enthusiasm about fluid physics at FYFD.
(Carlowen = Carl + Owen, he/him) Physics Instructor at Johnston Community College. I've studied turbulence in the ocean, atmosphere, and planets!
Prof. In Systems Chemistry trying synthesize life
Physicist by formation and by everyday-renewed-state, FNRS, Université de Liège, CESAM, PtYX.
HorizonEU MSCA-DN research project | Experimental physics of the Leidenfrost Effect | Fluids, PhDs, soft matter, industry
✨Discover, learn & explore with us!
🔗 https://www.leidenforce.eu
🔴 youtube.com/@LeidenForce
📸 instagram.com/LeidenForce
Interested in modelling and control of complex dynamical systems, fluid dynamics, reduced order modelling, and SciML
Postdoc, UW Madison; PhD - Mechanical Engineering, Clemson University;
jbuzhar.github.io
Schmidt AI in Science Postdoctoral Fellow at U. Chicago
theoretical & computational soft matter, biophysics, machine learning
jordanshivers.github.io
Hope Street Fellow @ Brown University
https://chase-gabbard.github.io/
