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Mixed‐Dimensional van der Waals Engineering for Charge Transfer Enables Wafer‐Level Flexible Electronics

Yiming Zhang, Dexing Liu, Qiuyue Huang, Qinqi Ren, Lingchong Fan, Chunhui Du, Shengdong Zhang, Min Zhang

2022Advanced Functional Materials13 citationsDOI

Abstract

Abstract Flexible electronics draw intense interest because of their promising potential for emerging applications, which, however, encounter challenging obstacles of material self‐limiting fabrication, trade‐off mechanical flexibility, and associated moderate electrical performance. Here, wafer‐level flexible fully‐carbon‐integrated transistors via mixed‐dimensional van der Waals (vdW) engineering is realized. Remarkable performance includes subthreshold swing of 51.8 mV dec −1 breaking thermionic limit, outstanding field‐effect mobility as high as 313.8 cm 2 V −1 s −1 , and sub‐1 V operating voltage. The charge transfer modulation of graphene oxide on carbon nanotube in the vdW‐integrated transistors is designed to enhance channel conductance, which is simultaneously confirmed by theoretical calculations and electrical characterizations. Besides, the transistors maintain stable electrical performance after bending under an ultra‐small radius of 250 µm. Exponential‐sensitivity temperature sensors and binary‐logic inverters are further realized to demonstrate the feasibility of the devices as the building blocks of all‐vdW electronics. These results indicate that either the strategy of all‐vdW transistor realization or the charge transfer provides general approach to improve device performance and further advance flexible electronic technologies.

Topics & Concepts

Materials scienceElectronicsTransistorvan der Waals forceGrapheneNanotechnologyOptoelectronicsFlexible electronicsField-effect transistorElectrical engineeringVoltagePhysicsQuantum mechanicsEngineeringMoleculeGraphene research and applicationsAdvanced Sensor and Energy Harvesting Materials2D Materials and Applications
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