Now online: October 2025 Issue.
- Focus Issue on #biosensing,
- DNA moiré superlattices,
- Sugars at Ångström-resolution,
- Solid-state #nanopores,
- Non-aqueous Li #batteries, -
- Neuromorphic vision,
- Peptide #hydrogels,
- Deep learning for #LNPs and more...
www.nature.com/nnano/volume...
Our article "Ångström-resolution imaging of cell-surface glycans" made it to the cover of Nature Nanotechnology! 🤩 @natnano.nature.com
www.nature.com/nnano/volume...
Honoured to receive the Young Fluorescence Investigator Award at #BPS2026!
Huge thanks to the selection committee and to all the mentors and colleagues who supported me.
Excited to start new projects and keep using fluorescence to uncover molecular biology!
We're excited to announce the poster prize winners of #EESImaging 🔬
A special poster prize committee elected three winners:
Alara Kiris, @lumasullo.bsky.social and @wanluzhang.bsky.social. Congratulations!
Read on to learn about their research: s.embl.org/ees25-09post...
We are happy to share our latest work, 4Pi-SIMFLUX, which combines structured illumination with interferometric detection to achieve near-isotropic 3D localization precision of 2–3 nm and resolve sub-10 nm structural features across whole mammalian cells.
www.nature.com/articles/s41...
rdcu.be/eQVxt
Nature Nanotechnology
4Pi-SIMFLUX is a single-molecule localization microscopy approach that achieves a near-isotropic resolution below 10 nm in whole mammalian cells.
In DNA-PAINT, nearby proteins create overlapping localizations. You may see two by eye, but analysis often misses them, wasting precious precision. G5M solves this. Now in @natcomms.nature.com. doi.org/10.1038/s414.... 1/7
ÅNGSTRÖM-RESOLUTION IMAGING OF CELL-SURFACE GLYCANS 🧬🎨🍬
The glycocalyx, our cells' sugar coat, holds secrets in immunology, cancer, viral infections, and more. Visualizing its molecular architecture was impossible… until now. #glycotime #microscopy
www.biorxiv.org/content/10.1...
EMBL Events
Standard algorithms fail to fully exploit the spatial information in DNA-PAINT. Here, the authors present G5M, an algorithm providing molecular maps by accurately inferring biomolecule positions at di...
