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| Azevedo, Nuno Monteiro |
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Mckerricher, Garret
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Publications (7/7 displayed)
- 2017Inkjet-printed thin film radio-frequency capacitors based on sol-gel derived alumina dielectric inkcitations
- 2017Fully inkjet-printed microwave passive electronicscitations
- 20163D inkjet printed radio frequency inductors and capacitors
- 2015A Fully Inkjet Printed 3D Honeycomb Inspired Patch Antennacitations
- 2015Robust Design of a Particle-Free Silver-Organo-Complex Ink with High Conductivity and Inkjet Stability for Flexible Electronicscitations
- 2015Inkjet Printed Radio Frequency Passive Components
- 2014Crude oil water-cut sensing with disposable laser ablated and inkjet printed RF microfluidicscitations
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article
Inkjet-printed thin film radio-frequency capacitors based on sol-gel derived alumina dielectric ink
Abstract
There has been significant interest in printing radio frequency passives, however the dissipation factor of printed dielectric materials has limited the quality factor achievable. Al2O3 is one of the best and widely implemented dielectrics for RF passive electronics. The ability to spatially pattern high quality Al2O3 thin films using, for example, inkjet printing would tremendously simplify the incumbent fabrication processes – significantly reducing cost and allowing for the development of large area electronics. To-date, particle based Al2O3 inks have been explored as dielectrics, although several drawbacks including nozzle clogging and grain boundary formation in the films hinder progress. In this work, a particle free Al2O3 ink is developed and demonstrated in RF capacitors. Fluid and jetting properties are explored, along with control of ink spreading and coffee ring suppression. The liquid ink is heated to 400 °C decomposing to smooth Al2O3 films ~120 nm thick, with roughness of <2 nm. Metal-insulator-metal capacitors, show high capacitance density >450 pF/mm2, and quality factors of ~200. The devices have high break down voltages, >25 V, with extremely low leakage currents, <2×10−9 A/cm2 at 1 MV/cm. The capacitors compare well with similar Al2O3 devices fabricated by atomic layer deposition.