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Enhanced Mobility in Suspended Chemical Vapor-Deposited Graphene Field-Effect Devices in Ambient Conditions

Kishan Thodkar, Fabian Gramm

2023ACS Applied Materials & Interfaces11 citationsDOIOpen Access PDF

Abstract

High Resolution Image Download MS PowerPoint Slide High-field-effect mobility and the two-dimensional nature of graphene films make it an interesting material for developing sensing applications with high sensitivity and low power consumption. The chemical vapor deposition process allows for producing high-quality graphene films in a scalable manner. Considering the significant impact of the underlying substrate on the graphene device performance, methods to enhance the field-effect mobility are highly desired. This work demonstrates a simplified fabrication process to develop suspended, two-terminal chemical vapor deposition (CVD) graphene devices with enhanced field-effect mobility operating at room temperature. Enhanced hole field-effect mobility of up to ∼4.8 × 10 4 cm 2 /Vs and average hole mobility >1 × 10 4 cm 2 /Vs across all of the devices is demonstrated. A gradual increase in the width of the graphene device resulted in the increase of the full width at half-maximum (FWHM) of field-effect characteristics and a decrease in the field-effect mobility. Our work presents a simplified fabrication approach to realize high-mobility suspended CVD graphene devices, beneficial for developing CVD graphene-related applications.

Topics & Concepts

GrapheneMaterials scienceChemical vapor depositionElectron mobilityFabricationField effectNanotechnologySubstrate (aquarium)OptoelectronicsMedicineOceanographyGeologyAlternative medicinePathologyGraphene research and applicationsGraphene and Nanomaterials ApplicationsAdvancements in Battery Materials
Enhanced Mobility in Suspended Chemical Vapor-Deposited Graphene Field-Effect Devices in Ambient Conditions | Litcius