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Atomistic Insights into Halide Double Perovskite Nanocrystals obtained by Multistep Synthesis and Efficient Compositional Engineering

Nicola Dengo, David F. Macías-Pinilla, Pietro Anzini, Maria Colombo, Simone Virga, Andrea Brambilla, Piero Antonio Zecca, Damiano Monticelli, Francesco Giannici, Federica Bertolotti

2025ACS Nano8 citationsDOIOpen Access PDF

Abstract

High Resolution Image Download MS PowerPoint Slide Lead-free halide double perovskites (HDP), particularly those within the Cs 2 B + InCl 6 family that show a direct band gap, have recently emerged as promising semiconductors to address key challenges associated with lead-based perovskites, such as toxicity and instability in air and moisture. Their compositional flexibility, structural versatility, and ease of cation transmutation offer considerable potential for bandgap engineering. Here, we present a versatile, multistep, solution-based synthetic strategy for HDP nanocrystals. This method separates the precursor dissolution and reaction stages, providing much greater control over the synthesis. The flexibility of this approach makes it widely generalizable and highly adaptable to high-throughput flow chemistry techniques, including multifluidic platforms and (semi)automated frameworks (e.g., self-driving or automated laboratories). Here, we demonstrate that stable Cs 2 (Na,Ag)InCl 6 and Cs 2 (Na,K)InCl 6 HDP compositions can be readily obtained through this approach. Through state-of-the-art atomic-scale experimental and theoretical characterization, we provide insights into the evolution of chemical bonding upon Na + /Ag + substitution into the Cs 2 (Na,Ag)InCl 6 series. Finally, we investigate the limited miscibility of K + within the NaCl 6 sublattice of Cs 2 (Na,K)InCl 6, which can be ascribed to the distorted pentagonal bipyramidal coordination adopted by K +, as observed in the endmember Cs 2 KInCl 6 composition. All together, these fundamental structural findings serve as a basis for the interpretation of the optical properties of the HDP nanocrystals developed in this work. By combining spectral and structural evidence, we investigate the origins of their absorption and emission properties, with general applicability to similar HDP compositions.

Topics & Concepts

Perovskite (structure)HalideNanocrystalMaterials scienceSpinodal decompositionBand gapDissolutionNanotechnologyChemical physicsChemistryPhase (matter)Physical chemistryCrystallographyInorganic chemistryOptoelectronicsOrganic chemistryPerovskite Materials and ApplicationsSolid-state spectroscopy and crystallographyQuantum Dots Synthesis And Properties
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