Twisted Tin‐Chloride Perovskite Single‐Crystal Heterostructures
Jamie L. Cleron, Chih‐Yi Chen, Feng Pan, Santanu Saha, Frederick P. Marlton, Robert M. Stolz, Jiayi Li, Jennifer A. Dionne, Fang Liu, Marina R. Filip, Hemamala I. Karunadasa

TL;DR
Replacing lead with tin in a perovskite heterostructure causes a twist between layers, leading to structural and electronic changes that affect optical properties.
Contribution
The paper introduces twisted tin-chloride perovskite heterostructures with unique structural and electronic properties.
Findings
Tin-based heterostructures exhibit a twist between perovskite and intergrowth layers due to local distortions at Sn centers.
Structural differences, not composition, drive the distinct band structures in tin and lead analogs.
Interfacial strain in tin heterostructures allows differential Pb incorporation and redshifted optical absorption.
Abstract
Self‐assembly affords simpler synthetic routes to heterostructures compared with manual layer‐by‐layer stacking, yet controlling interlayer twist angles in a bulk solid remains an outstanding challenge. We report two new single‐crystal heterostructures: (Sn2Cl2)(CYS)2SnCl4 (CYS = +NH3(CH2)2S–; Sn_CYS) and (Sn2Cl2)(SeCYS)2SnCl4 (SeCYS = +NH3(CH2)2Se–; Sn_SeCYS) synthesized in solution, with alternating perovskite and intergrowth layers. Notably, compared to the recently reported lead analog, (Pb2Cl2)(CYS)2PbCl4 (Pb_CYS), the tin heterostructures feature a twist between the perovskite and intergrowth layers. We trace this twist to local distortions at the Sn centers, which change the interfacial lattice‐matching requirements compared to those of the Pb analog. Electronic band structure calculations show that the striking differences in the relative energies of perovskite‐ and…
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Taxonomy
TopicsPerovskite Materials and Applications · Thermal Expansion and Ionic Conductivity · Heusler alloys: electronic and magnetic properties
