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Enhancing Resistive Switching Performance and Ambient Stability of Hybrid Perovskite Single Crystals via Embedding Colloidal Quantum Dots

Adnan Younis, Long Hu, Pankaj Sharma, Chun‐Ho Lin, Yang Mi, Xinwei Guan, Dawei Zhang, Yutao Wang, Tengyue He, Xinfeng Liu, Babar Shabbir, Shujuan Huang, Jan Seidel, Tom Wu

2020Advanced Functional Materials83 citationsDOI

Abstract

Abstract Hybrid organic‐inorganic halide perovskites are actively pursued for optoelectronic technologies, but the poor stability is the Achilles’ heel of these materials that hinders their applications. Very recently, it has been shown that lead sulfide (PbS) quantum dots (QDs) can form epitaxial interfaces with the perovskite matrix and enhance the overall stability. In this work, it is demonstrated that embedding QDs can significantly modify the transport property of pristine perovskite single crystals, endowing them with new functionalities besides being structurally robust and free from grain boundaries. Resistive switching memory devices are constructed using solution‐processed CH 3 NH 3 PbBr 3 (MAPbBr 3 ) perovskite single crystals and the QD‐embedded counterparts. It is found that QDs could significantly enhance the charge transport and reduce the current–voltage hysteresis. The pristine singe crystal device exhibits negative differential resistance, while the QD‐embedded crystals are featured with filament‐type switching behavior and much improved device stability. This study underscores the potential of QD‐embedded hybrid perovskites as a new media for advanced electronic devices.

Topics & Concepts

Materials sciencePerovskite (structure)Quantum dotOptoelectronicsHysteresisNanotechnologyHalideResistive touchscreenChemical engineeringInorganic chemistryCondensed matter physicsElectrical engineeringChemistryPhysicsEngineeringPerovskite Materials and ApplicationsConducting polymers and applicationsAdvanced Memory and Neural Computing
Enhancing Resistive Switching Performance and Ambient Stability of Hybrid Perovskite Single Crystals via Embedding Colloidal Quantum Dots | Litcius