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Resistance switching in two-terminal ferroelectric-semiconductor lateral heterostructures

Kamal Asadi

2020Applied Physics Reviews30 citationsDOIOpen Access PDF

Abstract

Developing new memory concepts and devices has been one of the most productive fields of research for the past decade. There is a need for a nonvolatile memory technology based on resistance switching. An ideal memory element is a bistable rectifying diode that enables realization of a simple crossbar memory array with highest areal bit density. Ferroelectrics have been suggested to code digital information due to their intrinsic and stable binary electronic polarization. However, realization of a ferroelectric bistable rectifying diode is challenging since ferroelectricity and electrical conductivity are mutually exclusive and cannot coexist in a single compound. As a solution, lateral ferroelectric-semiconductor heterostructures have been suggested for the realization of ferroelectric diodes. Bistable rectifying diodes and their respective nonvolatile crossbar memory arrays based on ferroelectric-semiconductor lateral heterostructures have been successfully demonstrated with organic ferroelectrics and organic semiconductors. The present review focuses on the resistance switching in ferroelectric-semiconductor heterostructure rectifying diodes based on polymers and discusses the latest developments over the last decade.

Topics & Concepts

BistabilityFerroelectricityDiodeHeterojunctionMaterials scienceCrossbar switchOptoelectronicsNon-volatile memorySemiconductorFerroelectric capacitorRealization (probability)Semiconductor memoryElectrical engineeringEngineeringMathematicsDielectricStatisticsAdvanced Memory and Neural ComputingPerovskite Materials and ApplicationsConducting polymers and applications