Metal and Metal Oxide Nanoparticles in Chemiresistors: Does the Nanoscale Matter?

Sensor technology is one of the most important key technologies of the future with a constantly increasing number of applications, both in the industrial and in the private sectors. More and more gas sensors are used for the control of technical processes, in environment monitoring, healthcare, and...

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Published inSmall (Weinheim an der Bergstrasse, Germany) Vol. 2; no. 1; pp. 36 - 50
Main Authors Franke, Marion E., Koplin, Tobias J., Simon, Ulrich
Format Journal Article
LanguageEnglish
Published Weinheim WILEY-VCH Verlag 01.01.2006
WILEY‐VCH Verlag
Subjects
Biosensing Techniques - instrumentation
Biosensing Techniques - methods
chemiresistors
Electric Impedance
Electrochemistry - instrumentation
Electrochemistry - methods
Equipment Design
metals
Metals - chemistry
nanoparticles
Nanostructures - chemistry
Nanostructures - ultrastructure
Nanotechnology - instrumentation
Nanotechnology - methods
oxides
Oxides - chemistry
Particle Size
sensors
Transducers
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Abstract Sensor technology is one of the most important key technologies of the future with a constantly increasing number of applications, both in the industrial and in the private sectors. More and more gas sensors are used for the control of technical processes, in environment monitoring, healthcare, and automobiles. Consequently, the development of fast and sensitive gas sensors with small cross sensitivity is the subject of intense research, propelled by strategies based on nanoscience and ‐technology. Established systems can be improved and novel sensor concepts based on bottom‐up approaches show that the sensor properties can be controlled by molecular design. This Review highlights the recent developments and reflects the impact of nanoscience on sensor technology. Nanoparticles make good sense: Chemiresistors based on nanostructured materials enable highly sensitive and selective gas‐sensor applications. This Review highlights the recent developments and reflects the impact of nanoscience on sensor technology. The picture describes the selective detection of a single gas species (red) out of a mixture by using surface‐modified gold nanoparticles.
AbstractList Sensor technology is one of the most important key technologies of the future with a constantly increasing number of applications, both in the industrial and in the private sectors. More and more gas sensors are used for the control of technical processes, in environment monitoring, healthcare, and automobiles. Consequently, the development of fast and sensitive gas sensors with small cross sensitivity is the subject of intense research, propelled by strategies based on nanoscience and -technology. Established systems can be improved and novel sensor concepts based on bottom-up approaches show that the sensor properties can be controlled by molecular design. This Review highlights the recent developments and reflects the impact of nanoscience on sensor technology.
Sensor technology is one of the most important key technologies of the future with a constantly increasing number of applications, both in the industrial and in the private sectors. More and more gas sensors are used for the control of technical processes, in environment monitoring, healthcare, and automobiles. Consequently, the development of fast and sensitive gas sensors with small cross sensitivity is the subject of intense research, propelled by strategies based on nanoscience and -technology. Established systems can be improved and novel sensor concepts based on bottom-up approaches show that the sensor properties can be controlled by molecular design. This Review highlights the recent developments and reflects the impact of nanoscience on sensor technology.Sensor technology is one of the most important key technologies of the future with a constantly increasing number of applications, both in the industrial and in the private sectors. More and more gas sensors are used for the control of technical processes, in environment monitoring, healthcare, and automobiles. Consequently, the development of fast and sensitive gas sensors with small cross sensitivity is the subject of intense research, propelled by strategies based on nanoscience and -technology. Established systems can be improved and novel sensor concepts based on bottom-up approaches show that the sensor properties can be controlled by molecular design. This Review highlights the recent developments and reflects the impact of nanoscience on sensor technology.
Sensor technology is one of the most important key technologies of the future with a constantly increasing number of applications, both in the industrial and in the private sectors. More and more gas sensors are used for the control of technical processes, in environment monitoring, healthcare, and automobiles. Consequently, the development of fast and sensitive gas sensors with small cross sensitivity is the subject of intense research, propelled by strategies based on nanoscience and ‐technology. Established systems can be improved and novel sensor concepts based on bottom‐up approaches show that the sensor properties can be controlled by molecular design. This Review highlights the recent developments and reflects the impact of nanoscience on sensor technology. Nanoparticles make good sense: Chemiresistors based on nanostructured materials enable highly sensitive and selective gas‐sensor applications. This Review highlights the recent developments and reflects the impact of nanoscience on sensor technology. The picture describes the selective detection of a single gas species (red) out of a mixture by using surface‐modified gold nanoparticles.
Author Koplin, Tobias J.
Franke, Marion E.
Simon, Ulrich
Author_xml – sequence: 1
  givenname: Marion E.
  surname: Franke
  fullname: Franke, Marion E.
  organization: RWTH Aachen, Institut für Anorganische Chemie, Landoltweg 1, 52054 Aachen, Germany, Fax: (+49) 241-809-9003
– sequence: 2
  givenname: Tobias J.
  surname: Koplin
  fullname: Koplin, Tobias J.
  organization: RWTH Aachen, Institut für Anorganische Chemie, Landoltweg 1, 52054 Aachen, Germany, Fax: (+49) 241-809-9003
– sequence: 3
  givenname: Ulrich
  surname: Simon
  fullname: Simon, Ulrich
  email: ulrich.simon@ac.rwth-aachen.de
  organization: RWTH Aachen, Institut für Anorganische Chemie, Landoltweg 1, 52054 Aachen, Germany, Fax: (+49) 241-809-9003
BackLink https://www.ncbi.nlm.nih.gov/pubmed/17193551$$D View this record in MEDLINE/PubMed
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2002; 83
2000; 10
1994; 141
2004; 34
2002; 87
2005; 105
2005; 106
2005; 107
2005; 108
2002; 92
2000; 122
1998; 10
1989
2000; 67
2000; 68
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2002; 2
2005; 119
2000; 70
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1994
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1990; 3
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1995; 267
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1953; 32
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2001; 293
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1993 1994; 47 49
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1953; 21
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1962 1966; 34 38
1991; 3
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1987; 12
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1990; 169
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2005
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1991; 5
2001; 80
2004; 98
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1962
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Snippet Sensor technology is one of the most important key technologies of the future with a constantly increasing number of applications, both in the industrial and...
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SubjectTerms Biosensing Techniques - instrumentation
Biosensing Techniques - methods
chemiresistors
Electric Impedance
Electrochemistry - instrumentation
Electrochemistry - methods
Equipment Design
metals
Metals - chemistry
nanoparticles
Nanostructures - chemistry
Nanostructures - ultrastructure
Nanotechnology - instrumentation
Nanotechnology - methods
oxides
Oxides - chemistry
Particle Size
sensors
Transducers
Title Metal and Metal Oxide Nanoparticles in Chemiresistors: Does the Nanoscale Matter?
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https://onlinelibrary.wiley.com/doi/abs/10.1002%2Fsmll.200500261
https://www.ncbi.nlm.nih.gov/pubmed/17193551
https://www.proquest.com/docview/29154118
https://www.proquest.com/docview/68271127
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