Mechanochemical Route to High-Entropy Three-Dimensional Halide Perovskites High-entropy alloying has been demonstrated as a powerful approach to obtaining materials with exceptional structural and functional properties. The presence of several atomic species in the same crystallographic site alters short-range order compared to nonalloyed phases and results in different mechanical, chemical, and electronic behavior with emergent features. While the synthesis of high-entropy alloys (HEAs) is established in metallurgy, their formation as halide perovskites has been so far limited by synthetic bottlenecks, including different solubilities of the binary salt precursors and the complexity of crystallization pathways in solution. Herein, we report a solvent-free mechanochemical synthesis route for high-entropy double perovskites, yielding simultaneous near-stoichiometric alloying at two and three crystal sublattices. Detailed structural characterization reveals the atomic mechanisms involved in the formation of the HEAs through asymmetric ion-exchange rates from parent nonalloyed perovskites, as well as the formation of inorganic layered nanoheterostructures. Strong nonlinear behavior is observed in the optical properties (bandgap bowing), leading to full visible-range light absorption for the chloride perovskites. Theoretical calculations at the density functional theory provide a framework for the process, shedding light into the electronic structure of the complex alloys. As a proof of concept, the alloys are implemented in a standard electrochemical cell fitted with a quartz window for photoelectrochemical oxygen evolution testing, showing a clear photocatalytic response.

New #MiMpaper! In collaboration with colleagues from @iitalk.bsky.social and @icmoluv.bsky.social, which always makes things better 😊. #HighEntropy #Perovskites #Mechanochemistry #MULTIMAT
Mechanochemical Route to High-Entropy Three-Dimensional Halide Perovskites pubs.acs.org/doi/10.1021/...

From binary chalcogenide Sb2S3 to mixed-cation chalcohalide (Sb,Bi)SI thin films with tunable bandgap and photoconductivity Pnictogen chalcogenides and chalcohalides represent an emerging class of solid-state materials whose electronic structure and transport properties can…

It's always nice when someone comes for an internship in your group and gets a paper out of it 🤩. Congratulations Radja et al. ! #chalcohalide #semiconductors #thin-films #photodetectors #MiMpaper

www.sciencedirect.com/science/arti...

LaCoO3-Based Medium-Entropy Perovskite Electrocatalysts for Zn/Air Batteries with Improved Cycling Capabilities and Durability We synthesized LaCoO3 perovskites and a stable medium-entropy derivative containing five metal cations. The medium-entropy perovskite presents a significant improvement over the simple LaCoO3 for oxyg...

Second #MiMpaper!
#Perovskite oxide alloys as efficient #electrocatalysts for Zinc/air #batteries. #ZAB #energy

Congrats G. Escobar et al.!

LaCoO3-Based Medium-Entropy Perovskite Electrocatalysts for Zn/Air Batteries with Improved Cycling Capabilities and Durability pubs.acs.org/doi/10.1021/...

Spray-coated CsPbBr3/CsPb2Br5 thin film photodetectors from nanocrystalline inks Herein, we developed a simple approach for the fabrication of thin film inorganic perovskite and perovskite-related photoconductors. First, we synthesized CsPbBr3 and CsPb2Br5 nanoinks solutions under...

First #MiMpaper! Congratulations Jejen et al. ;)
Spray-coated CsPbBr3/CsPb2Br5 thin film photodetectors from nanocrystalline inks.
#perovskites #optoelectronics #nanocrystals

pubs.rsc.org/en/content/a...

Looks like we'll soon be sharing our first #MiMpaper... 😀