🔍 Making invisible magnons visible.
With #CIQTEK #SNVM, Tsinghua researchers directly imaged nanoscale magnetic structures in BiFeO₃. Published in #AdvancedFunctionalMaterials, the work advances magnonics and low-power spintronics.

🔗 ciqtekglobal.com/ciqtek-snvm-...

#Magnonics

#DyNAtrix made it to the cover of #AdvancedFunctionalMaterials by #Wiley.

@ufscar.bsky.social @fau.de the Chinese University of Hong Kong
#AdvancedFunctionalMaterials #Photoelectrocatalysis #Photocatalysis #OrganicSynthesis #CarbonNitrides #MaterialsScience #TeamScience
Tricontinental collaborative work!

New #ICMABResearch published in #AdvancedFunctionalMaterials!

📌Fe/Fe3C Embedded Pyrazine-Based Porous Organic Network for Superior Tribo-Charge and Electrochemical Double Layer Capacitance

icmab.es/fe-fe3c-embe...

📜Read the paper here: advanced.onlinelibrary.wiley.com/doi/10.1002/...

💡 Imagine a bone implant that is flexible during surgery – easy to handle, adapt, and fix – and then hardens naturally once inside the body to provide strong, bone-like support.

That’s what researchers from the BBT group have achieved in a new study published in #AdvancedFunctionalMaterials.

Engineering a Spin‐Orbit Bandgap in Graphene‐Tellurium Heterostructures Tellurium intercalation in epitaxial graphene on Ir(111) enables the emergence of a spin–orbit-induced bandgap with energy spin splitting. By combining STM, ARPES, spin-resolved ARPES, and DFT, two s...

🚀 Excited to share our latest publication in #AdvancedFunctionalMaterials "Engineering a Spin-Orbit Bandgap in Graphene–Tellurium Heterostructures"

🔗 advanced.onlinelibrary.wiley.com/doi/full/10....

This research was conducted at @imdeananociencia.bsky.social in collaboration with @uam.es #INFN

Wrapping the year with two gifts
First, I am happy to share that my first paper (part) of my PhD work on "On-Cell coupling of biomaterials regulate Stem Cell Fate via intracellular biophysical Programming" has been published in #Advancedfunctionalmaterials

onlinelibrary.wiley.com/doi/epdf/10....

Improving Energy Storage and Nickel Manganese Cobalt Oxide Cathode Lifetime via a Tannic Acid/Iron (III) Metal Phenolic Network Coating Surface coating strategies have emerged to optimize cathodic LIB performance or to suppress failure mechanisms. However, previously adopted coatings require several hours for synthesis including a hi...

Want faster charging #Lithium Ion #Batteries?

Donghyuck Park and Amanda Ellis present a one pot coating of #NMC #cathodes with #MPNs to increase their #capacity, #lifetime, and #rate performance, in #AdvancedFunctionalMaterials. 🚗 ⚡

doi.org/10.1002/adfm...

#battchat #ozchem #chemsky 🧪 🔋