Structure-Property-Function Relationships in Nanoscale Oxide Sensors : a Case Study Based on Zinc Oxide

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2007_Adv_Funct_Mater.pdf
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2007
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Roy, Abhijit
Lehmann, Michael
Driess, Matthias
Kruis, Frank E.
Hoffmann, Andreas
Zimmer, Patrick
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Advanced Functional Materials. 2007, 17(8), pp. 1385-1391. ISSN 1616-301X. eISSN 1616-3028. Available under: doi: 10.1002/adfm.200700139
Zusammenfassung

Chemical sensing on oxide sensors is a complex phenomenon involving catalytic activity as well as electronic properties. Thus, the properties of oxide sensors are highly sensitive towards structural changes. Effects like surface area, grain size, and, in addition, the occurrence of defects give separate contributions to the current. Structure property function relationships can be elucidated using a combination of state-of-the-art analytical techniques. It is shown, that impurity atoms in the oxide lattice influence the performance of ZnO sensors more strongly than the other factors.

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ISO 690POLARZ, Sebastian, Abhijit ROY, Michael LEHMANN, Matthias DRIESS, Frank E. KRUIS, Andreas HOFFMANN, Patrick ZIMMER, 2007. Structure-Property-Function Relationships in Nanoscale Oxide Sensors : a Case Study Based on Zinc Oxide. In: Advanced Functional Materials. 2007, 17(8), pp. 1385-1391. ISSN 1616-301X. eISSN 1616-3028. Available under: doi: 10.1002/adfm.200700139
BibTex
@article{Polarz2007Struc-9973,
  year={2007},
  doi={10.1002/adfm.200700139},
  title={Structure-Property-Function Relationships in Nanoscale Oxide Sensors : a Case Study Based on Zinc Oxide},
  number={8},
  volume={17},
  issn={1616-301X},
  journal={Advanced Functional Materials},
  pages={1385--1391},
  author={Polarz, Sebastian and Roy, Abhijit and Lehmann, Michael and Driess, Matthias and Kruis, Frank E. and Hoffmann, Andreas and Zimmer, Patrick}
}
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