Workflow for High Throughput Screening of Gas Sensing Materials

The workflow of a high throughput screening setup for the rapid identification of new and improved sensor materials is presented. The polyol method was applied to prepare nanoparticular metal oxides as base materials, which were functionalised by surface doping. Using multi-electrode substrates and...

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Detalles Bibliográficos
Autores principales: Koplin, Tobias J., Siemons, Maike, Océn-Valéntin, César, Sanders, Daniel, Simon, Ulrich
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Molecular Diversity Preservation International (MDPI) 2006
Materias:
Full Research Paper
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3872349/
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author Koplin, Tobias J.
Siemons, Maike
Océn-Valéntin, César
Sanders, Daniel
Simon, Ulrich
author_facet Koplin, Tobias J.
Siemons, Maike
Océn-Valéntin, César
Sanders, Daniel
Simon, Ulrich
author_sort Koplin, Tobias J.
collection PubMed
description The workflow of a high throughput screening setup for the rapid identification of new and improved sensor materials is presented. The polyol method was applied to prepare nanoparticular metal oxides as base materials, which were functionalised by surface doping. Using multi-electrode substrates and high throughput impedance spectroscopy (HT-IS) a wide range of materials could be screened in a short time. Applying HT-IS in search of new selective gas sensing materials a NO(2)-tolerant NO sensing material with reduced sensitivities towards other test gases was identified based on iridium doped zinc oxide. Analogous behaviour was observed for iridium doped indium oxide.
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spelling pubmed-38723492013-12-26 Workflow for High Throughput Screening of Gas Sensing Materials Koplin, Tobias J. Siemons, Maike Océn-Valéntin, César Sanders, Daniel Simon, Ulrich Sensors (Basel) Full Research Paper The workflow of a high throughput screening setup for the rapid identification of new and improved sensor materials is presented. The polyol method was applied to prepare nanoparticular metal oxides as base materials, which were functionalised by surface doping. Using multi-electrode substrates and high throughput impedance spectroscopy (HT-IS) a wide range of materials could be screened in a short time. Applying HT-IS in search of new selective gas sensing materials a NO(2)-tolerant NO sensing material with reduced sensitivities towards other test gases was identified based on iridium doped zinc oxide. Analogous behaviour was observed for iridium doped indium oxide. Molecular Diversity Preservation International (MDPI) 2006-04-07 /pmc/articles/PMC3872349/ Text en © 2006 by MDPI (http://www.mdpi.org). Reproduction is permitted for non-commercial purposes.
spellingShingle Full Research Paper
Koplin, Tobias J.
Siemons, Maike
Océn-Valéntin, César
Sanders, Daniel
Simon, Ulrich
Workflow for High Throughput Screening of Gas Sensing Materials
title Workflow for High Throughput Screening of Gas Sensing Materials
title_full Workflow for High Throughput Screening of Gas Sensing Materials
title_fullStr Workflow for High Throughput Screening of Gas Sensing Materials
title_full_unstemmed Workflow for High Throughput Screening of Gas Sensing Materials
title_short Workflow for High Throughput Screening of Gas Sensing Materials
title_sort workflow for high throughput screening of gas sensing materials
topic Full Research Paper
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3872349/
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