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Authors
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Egger, L.; Reiner, L.; Sosada-Ludwikowska, F.; Köck, A.; Schlicke, H.; Becker, S.; Tokmak, Ö.; Niehaus, J. S.; Blümel, A.; Popovic, K.; Tscherner, M.
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Title
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Development of a screening platform for optimizing chemical nanosensor materials
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Date
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28.08.2024
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Number
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0
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Abstract
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Chemical sensors, relying on changes in the electrical conductance of a gas-sensitive material due to the surrounding gas, typically react with multiple target gases and the resulting response is not specific for a certain analyte species. The purpose of this study was the development of a multi-sensor platform for systematic screening of gas-sensitive nanomaterials. We have developed a specific Si-based platform chip, which integrates a total of 16 sensor structures. Along with a newly developed measurement setup, this multi-sensor platform enables simultaneous performance characterization of up to 16 different sensor materials in parallel in an automated gas measurement setup. In this study, we chose the well-established ultrathin SnO2 films as base material. In order to screen the sensor performance towards type and areal density of nanoparticles on the SnO2 films, the films are functionalized by ESJET printing Au-, NiPt-, and Pd-nanoparticle solutions with five different concentrations. The functionalized sensors have been tested toward the target gases: carbon monoxide and a specific hydrogen carbon gas mixture of acetylene, ethane, ethne, and propene. The measurements have been performed in three different humidity conditions (25%, 50% and 75% r.h.). We have found that all investigated types of NPs (except Pd) increase the responses of the sensors towards CO and HCmix and reach a maximum for an NP type specific concentration.
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Publisher
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MDPI
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Wikidata
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Citation
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Sensors 24 (2024) 5565
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DOI
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https://doi.org/10.3390/s24175565
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Tags
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