OT5.252 - Printing Nanoporous Layers (NPL) Generated by Spark Ablation for Gas Sensing Applications

L. N. Sacco; N. Schouten; L. Egger; M. Popov; A. Köck; C. Dösinger; L. Romaner

OT5.252 - Printing Nanoporous Layers (NPL) Generated by Spark Ablation for Gas Sensing Applications

Event: EUROSENSORS XXXVI
2024-09-01 - 2024-09-04
Debrecen (Hungary)
Band: Lectures
Chapter: OT5 - Chemical Sensors
Author(s): L. N. Sacco, N. Schouten - VSParticle, Delft (Netherlands), L. Egger, M. Popov, A. Köck - Materials Center Leoben Forschung GmbH, Leoben (Austria), C. Dösinger, L. Romaner - Montanuniversität Leoben, Leoben (Austria)
Pages: 141 - 142
DOI: 10.5162/EUROSENSORSXXXVI/OT5.252
ISBN: 978-3-910600-03-4
Price: free

Abstract

Metal-oxides semiconductors (MOS) based nanoporous layers (NPL) were generated by spark ablation and printed by impaction. The printed layers were used as sensing layers to detect a hydrocarbon gas mixture named HCmix, including, acetylene, ethane, ethene, and propene. The impact of the printed layer thickness on the sensing response was assessed. The presented results show that spark ablation is an excellent scalable aerosol route for production of nanoporous layers, suitable for gas sensing applications, where the nanoporous layer can be modulated adjusting the sparkling and printing conditions.

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