📘 New review published!
We discuss how chemical bonding and lattice dynamics govern the structure and electronic properties of halide perovskites, covering 3D, layered, and double perovskites from experimental and theoretical perspectives.
🔗https://t.co/NXeKPD0t0e
Think Cs₂CuSbCl₆ has a 1.66 eV bandgap? Think again.
Our new paper shows the signal actually comes from Cu-doped Cs₃Sb₂Cl₉, not the double perovskite and explains why Cs₂CuSbCl₆ is unstable.
https://t.co/Hqkinw0TRP
I'm thrilled to share our new work in @acsnano!
We report a modular synthesis for compositionally tunable, lead-free halide double perovskite nanocrystals with enhanced stability, confirmed by detailed structural analysis.
https://t.co/YqXA6pltMm
🌟 Excited to share our latest review!
"Computational Insights into the Structural and Optical Properties of Ag-Based Halide Double Perovskites" in ACS Applied Materials & Interfaces.
https://t.co/Ub0uQxQWoJ
#MaterialsScience#DFT#HDP#Optoelectronics
Mañana tendré el honor de presentar un seminario sobre el trabajo realizado durante mi Doctorado en Ciencias de la @UJIuniversitat.
Agradezco a la escuela de Física @UPTCoficial por la invitación y la oportunidad de compartir mi investigación.
It is a pleasure to congratulate the new Ph.D David F. Macias from @inam_uji@dalcon1 for this amazing achievement! 👨🎓🎉🏆 🇨🇴Well done, fella! Now, the celebration begins!
Researchers compared the properties of excitons and trions in NPLs of CdSe and PbS with interesting results for applications in optoelectronic devices. @dalcon1
https://t.co/6nymzomyl8