Andreas Walther
@waltherlab.bsky.social
Professor in Mainz/GER for Life-Like Systems and Materials, Max Planck Fellow, Travel and Food Enthusiast 🧳, AvHumboldt Postdoc-Scout 📧 me
https://www.walther-group.com
https://www.walther-group.com
ACDC PwrUp tour. It’s amazing to see the old giants in action.
July 9, 2025 at 5:25 AM
ACDC PwrUp tour. It’s amazing to see the old giants in action.
🚀 New diffusion mechanism in biomolecular #condensates!
In our latest work in @natnano.nature.com, we report ballistic wave diffusion — a fundamentally different transport mode featuring ultrasharp fronts that propagate linearly in time. Congrats to Weixiang Chen! www.nature.com/articles/s41...
In our latest work in @natnano.nature.com, we report ballistic wave diffusion — a fundamentally different transport mode featuring ultrasharp fronts that propagate linearly in time. Congrats to Weixiang Chen! www.nature.com/articles/s41...
June 7, 2025 at 4:44 AM
🚀 New diffusion mechanism in biomolecular #condensates!
In our latest work in @natnano.nature.com, we report ballistic wave diffusion — a fundamentally different transport mode featuring ultrasharp fronts that propagate linearly in time. Congrats to Weixiang Chen! www.nature.com/articles/s41...
In our latest work in @natnano.nature.com, we report ballistic wave diffusion — a fundamentally different transport mode featuring ultrasharp fronts that propagate linearly in time. Congrats to Weixiang Chen! www.nature.com/articles/s41...
I decided for a different office today. 😍
May 13, 2025 at 11:59 AM
I decided for a different office today. 😍
The concept is generalizable to many stimuli and overcomes complex external actuation scenarios with different light angles or light sources. The ratchet/Kinetic asymmetry is built into the material. FEM simulations accelerate discovery. We show micro- and macroscale machines!
March 29, 2025 at 6:10 AM
The concept is generalizable to many stimuli and overcomes complex external actuation scenarios with different light angles or light sources. The ratchet/Kinetic asymmetry is built into the material. FEM simulations accelerate discovery. We show micro- and macroscale machines!