CMOS integration of inkjet-printed graphene for humidity sensing

Citations Over TimeTop 10% of 2015 papers

Abstract

We report on the integration of inkjet-printed graphene with a CMOS micro-electro-mechanical-system (MEMS) microhotplate for humidity sensing. The graphene ink is produced via ultrasonic assisted liquid phase exfoliation in isopropyl alcohol (IPA) using polyvinyl pyrrolidone (PVP) polymer as the stabilizer. We formulate inks with different graphene concentrations, which are then deposited through inkjet printing over predefined interdigitated gold electrodes on a CMOS microhotplate. The graphene flakes form a percolating network to render the resultant graphene-PVP thin film conductive, which varies in presence of humidity due to swelling of the hygroscopic PVP host. When the sensors are exposed to relative humidity ranging from 10-80%, we observe significant changes in resistance with increasing sensitivity from the amount of graphene in the inks. Our sensors show excellent repeatability and stability, over a period of several weeks. The location specific deposition of functional graphene ink onto a low cost CMOS platform has the potential for high volume, economic manufacturing and application as a new generation of miniature, low power humidity sensors for the internet of things.

Related Papers

• Printability and Ink-Coating Interactions in Inkjet Printing(2007)
• → Temperature-Sensing Inks Using Electrohydrodynamic Inkjet Printing Technology(2021)14 cited
• Study status and development trends of digital inkjet printing ink of textile(2013)
• The Progress of Study on Textile Digital Ink-jet Printing Ink(2010)
• An investigation on the printabilities of conductive ink(2000)