Litcius/Paper detail

A Reactive Inkjet Printing Process for Fabricating Biodegradable Conductive Zinc Structures

Yongkun Sui, Aziz N. Radwan, Anupam Gopalakrishnan, Karan Dikshit, Carson J. Bruns, Christian A. Zorman, Gregory L. Whiting

2022Advanced Engineering Materials18 citationsDOIOpen Access PDF

Abstract

A novel reactive inkjet printing (RIJ) process for fabricating environmentally benign, conductive zinc structures on biodegradable substrates is reported. A precursor consisting of oxidized zinc microparticles is formulated into a viscous ink for high‐resolution, high‐repeatability screen printing. A single RIJ process is performed to selectively dispense an acid‐based oxide etching agent onto the screen‐printed zinc ink to significantly improve its electrical conductivity, up to 4 × 10 4 S m −1 . The RIJ process enables precise control of the amount of deposited etching agent, allowing control of conductivity and avoiding damage caused by excessive acid exposure. The RIJ process deposits the etching agent selectively on the screen‐printed, water‐soluble zinc patterns, thus preserving the print fidelity by avoiding ink smearing that can occur when using a blanket treatment such as submersion. A printed biodegradable antenna with a minimum feature size of 500 μm for use with a batteryless radio frequency identification (RFID) chip is fabricated as demonstration. Due to the higher ink conductivity and improved pattern fidelity, the antenna fabricated by the RIJ process shows a ≈2.2× increase in reading distance compared with a similar antenna that is screen printed and activated using a drop‐casting process.

Topics & Concepts

Materials scienceInkwellEtching (microfabrication)NanotechnologyConductive inkPolylactic acidZincScreen printingPrinted electronicsElectrical conductorConductivityOptoelectronicsLayer (electronics)PolymerComposite materialChemistrySheet resistanceMetallurgyPhysical chemistryNanomaterials and Printing TechnologiesAdditive Manufacturing and 3D Printing TechnologiesAdvanced Sensor and Energy Harvesting Materials