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Atomic structure and defect dynamics of monolayer lead iodide nanodisks with epitaxial alignment on graphene

Sapna Sinha, Taishan Zhu, Arthur France‐Lanord, Yuewen Sheng, Jeffrey C. Grossman, Kyriakos Porfyrakis, Jamie H. Warner

2020Nature Communications59 citationsDOIOpen Access PDF

Abstract

Abstract Lead Iodide (PbI 2 ) is a large bandgap 2D layered material that has potential for semiconductor applications. However, atomic level study of PbI 2 monolayer has been limited due to challenges in obtaining thin crystals. Here, we use liquid exfoliation to produce monolayer PbI 2 nanodisks (30-40 nm in diameter and > 99% monolayer purity) and deposit them onto suspended graphene supports to enable atomic structure study of PbI 2 . Strong epitaxial alignment of PbI 2 monolayers with the underlying graphene lattice occurs, leading to a phase shift from the 1 T to 1 H structure to increase the level of commensuration in the two lattice spacings. The fundamental point vacancy and nanopore structures in PbI 2 monolayers are directly imaged, showing rapid vacancy migration and self-healing. These results provide a detailed insight into the atomic structure of monolayer PbI 2 , and the impact of the strong van der Waals interaction with graphene, which has importance for future applications in optoelectronics.

Topics & Concepts

MonolayerMaterials scienceGrapheneVacancy defectvan der Waals forceEpitaxyNanotechnologyChemical physicsExfoliation jointLattice (music)Band gapSemiconductorCrystallographyOptoelectronicsChemistryPhysicsMoleculeLayer (electronics)Organic chemistryAcoustics2D Materials and ApplicationsPerovskite Materials and ApplicationsQuantum Dots Synthesis And Properties