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Fully Inkjet‐Printed, 2D Materials‐Based Field‐Effect Transistor for Water Sensing

Xiaoyu Sui, Sonal V. Rangnekar, Jaesung Lee, Stephanie E. Liu, Julia R. Downing, Lindsay E. Chaney, Xiaodong Yan, Hyun‐June Jang, Hongting Pu, Xiaoao Shi, Shiyu Zhou, Mark C. Hersam, Junhong Chen

2023Advanced Materials Technologies15 citationsDOIOpen Access PDF

Abstract

Abstract Despite significant progress in solution‐processing of 2D materials, it remains challenging to reliably print high‐performance semiconducting channels that can be efficiently modulated in a field‐effect transistor (FET). Herein, electrochemically exfoliated MoS 2 nanosheets are inkjet‐printed into ultrathin semiconducting channels, resulting in high on/off current ratios up to 10 3 . The reported printing strategy is reliable and general for thin film channel fabrication even in the presence of the ubiquitous coffee‐ring effect. Statistical modeling analysis on the printed pattern profiles suggests that a spaced parallel printing approach can overcome the coffee‐ring effect during inkjet printing, resulting in uniform 2D flake percolation networks. The uniformity of the printed features allows the MoS 2 channel to be hundreds of micrometers long, which easily accommodates the typical inkjet printing resolution of tens of micrometers, thereby enabling fully printed FETs. As a proof of concept, FET water sensors are demonstrated using printed MoS 2 as the FET channel, and printed graphene as the electrodes and the sensing area. After functionalization of the sensing area, the printed water sensor shows a selective response to Pb 2+ in water down to 2 ppb. This work paves the way for additive nanomanufacturing of FET‐based sensors and related devices using 2D nanomaterials.

Topics & Concepts

Materials sciencePrinted electronicsNanotechnologyInkwellTransistorNanomanufacturingFabricationOptoelectronicsInkjet printingCoffee ring effectNanomaterialsField-effect transistorPercolation (cognitive psychology)Electrical engineeringVoltageComposite materialEngineeringNeuroscienceMedicineAlternative medicineBiologyPathology2D Materials and ApplicationsAdvanced Sensor and Energy Harvesting MaterialsGas Sensing Nanomaterials and Sensors
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