Inorganic Materials from Nano to Macro Scales

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Next year, our group will launch a high-throughput infrastructure for solution synthesis and characterization of inorganic materials. To operate and advance this platform, we are hiring. Check out the position in the link!
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Liquid–Solid Interface Reactions Drive Enhanced Thermoelectric Performance in Ag2Se Ag2Se is a promising n-type thermoelectric material, but its performance is limited by excessive carrier concentration, compositional inhomogeneity, and phase instability, challenges rooted in a narro...

Huge congrats to Yu Liu and Tobias Kleinhanns for their collaboration to bring this work to life.
We unveil how liquid-solid interface reactions can drive thermoelectric material design.

🔗 pubs.acs.org/doi/full/10....

Prospects of Nanoscience with Nanocrystals: 2025 Edition

pubs.acs.org/doi/10.1021/...

This perspective reflects on the tremendous progress made in the past decade, while also highlighting the directions where the next breakthroughs may come.
@pubs.acs.org

Born from the EU #MeBattery Pathfinder. doi.org/10.1021/acs....
We dive deep into Prussian Blue Analogues (PBAs) as anodes for aqueous flow batteries. Read the new Perspective in Chemistry of Materials @pubs.acs.org
#BatteryResearch #EnergyStorage

Interfacial bonding enhances thermoelectric cooling in 3D-printed materials Thermoelectric coolers (TECs) are pivotal in modern heat management but face limitations in efficiency and manufacturing scalability. We address these challenges by using an extrusion-based 3D printing technique to fabricate high-performance ...

Access the paper in @science.org:

Shengduo Xu et al., Science, 2025. Interfacial bonding enhances thermoelectric cooling in 3D-printed materials. DOI: doi.org/10.1126/scie...