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Graphene Strain-Effect Transistor with Colossal ON/OFF Current Ratio Enabled by Reversible Nanocrack Formation in Metal Electrodes on Piezoelectric Substrates

Yikai Zheng, Dipanjan Sen, Sarbashis Das, Sarbashis Das, Saptarshi Das, Saptarshi Das

2023Nano Letters14 citationsDOI

Abstract

Extraordinarily high carrier mobility in graphene has led to many remarkable discoveries in physics and at the same time invoked great interest in graphene-based electronic devices and sensors. However, the poor ON/OFF current ratio observed in graphene field-effect transistors has stymied its use in many applications. Here, we introduce a graphene strain-effect transistor (GSET) with a colossal ON/OFF current ratio in excess of 10 7 by exploiting strain-induced reversible nanocrack formation in the source/drain metal contacts with the help of a piezoelectric gate stack. GSETs also exhibit steep switching with a subthreshold swing (SS) < 1 mV/decade averaged over ∼6 orders of magnitude change in the source-to-drain current for both electron and hole branch amidst a finite hysteresis window. We also demonstrate high device yield and strain endurance for GSETs. We believe that GSETs can significantly expand the application space for graphene-based technologies beyond what is currently envisioned.

Topics & Concepts

GrapheneMaterials scienceTransistorOptoelectronicsHysteresisPiezoelectricityCurrent (fluid)Field-effect transistorElectrodeNanotechnologyElectron mobilityStack (abstract data type)Condensed matter physicsVoltageElectrical engineeringComposite materialChemistryComputer sciencePhysicsPhysical chemistryProgramming languageEngineeringGraphene research and applicationsFerroelectric and Negative Capacitance DevicesNanowire Synthesis and Applications
Graphene Strain-Effect Transistor with Colossal ON/OFF Current Ratio Enabled by Reversible Nanocrack Formation in Metal Electrodes on Piezoelectric Substrates | Litcius