Wave control via structured biological and artificial materials, and beyond...
This page presents a list of complementary projects that take advantage of structured (articial or biological) materials for wave control.
Biological phononic crystals
1 - Abi Ghanem, M., Khoryati, L., Behrou, R., Khanolkar, A., Raetz, S., Allein, F., Boechler, N., & Dehoux, T.
Growing phenotype-controlled phononic materials from plant cells scaffolds
Applied Materials Today 22, 100934 (2021). PDF
Sound diffusers for sonogenetic applications
2 - Vasan, A., Allein, F., Duque, M., Magaram, U., Boechler, N., Chalasani, S. H., & Friend, J.
Microscale concert hall acoustics to produce uniform ultrasound stimulation for targeted sonogenetics in hsTRPAI-transfected cells
Advanced NanoBiomed Research, 2100135 (2022). PDF
DOI: DOI: https://doi.org/10.1002/anbr.202100135
Press: KPBS (link)
Sound absorbers based on hierarchical meta-porous
3 - Kuznetsova, S., Deleplanque, S., Allein, F., Dubus, B., & Miniaci, M.
Hierarchical meta-porous materials as sound absorbers
Proceedings Royal Society A 480:20230831 PDF
4 - Kuznetsova, S., Allein, F., & Miniaci, M.
Sierpinski carpet-inspired hierarchical patterning of porous materials for low-frequency sound absorption
submitted
DOI:
Nonlinear resonance as a tool to test mechanical contact
5 - Merkel, A., Theocharis, G., Allein, F., Groby, J.-P., Gusev, V., & Tournat, V.
Testing a bead-rod contact with a nonlinear resonance method
