Contactless conductivity detection for analytical techniques-Developments from 2012 to 2014
The review covers the progress of capacitively coupled contactless conductivity detection over the 2 years leading up to mid‐2014. During this period many new applications for conventional CE as well as for microchip separation devices have been reported; prominent areas have been clinical, pharmace...
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| Published in | Electrophoresis Vol. 36; no. 1; pp. 195 - 211 |
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| Main Authors | , |
| Format | Journal Article |
| Language | English |
| Published |
Germany
Blackwell Publishing Ltd
01.01.2015
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| Abstract | The review covers the progress of capacitively coupled contactless conductivity detection over the 2 years leading up to mid‐2014. During this period many new applications for conventional CE as well as for microchip separation devices have been reported; prominent areas have been clinical, pharmaceutical, forensic, and food analyses. Further progress has been made in the development of field portable instrumentation based on CE with contactless conductivity detection. Several reports concern the combination with sample pretreatment techniques, in particular electrodriven extractions. Accounts of arrays of contactless conductivity detectors have appeared, which have been created for quite different tasks requiring spatially resolved information. The trend of the use of contactless conductivity measurements for applications other than CE has continued. |
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| AbstractList | The review covers the progress of capacitively coupled contactless conductivity detection over the 2 years leading up to mid‐2014. During this period many new applications for conventional CE as well as for microchip separation devices have been reported; prominent areas have been clinical, pharmaceutical, forensic, and food analyses. Further progress has been made in the development of field portable instrumentation based on CE with contactless conductivity detection. Several reports concern the combination with sample pretreatment techniques, in particular electrodriven extractions. Accounts of arrays of contactless conductivity detectors have appeared, which have been created for quite different tasks requiring spatially resolved information. The trend of the use of contactless conductivity measurements for applications other than CE has continued. The review covers the progress of capacitively coupled contactless conductivity detection over the 2 years leading up to mid-2014. During this period many new applications for conventional CE as well as for microchip separation devices have been reported; prominent areas have been clinical, pharmaceutical, forensic, and food analyses. Further progress has been made in the development of field portable instrumentation based on CE with contactless conductivity detection. Several reports concern the combination with sample pretreatment techniques, in particular electrodriven extractions. Accounts of arrays of contactless conductivity detectors have appeared, which have been created for quite different tasks requiring spatially resolved information. The trend of the use of contactless conductivity measurements for applications other than CE has continued.The review covers the progress of capacitively coupled contactless conductivity detection over the 2 years leading up to mid-2014. During this period many new applications for conventional CE as well as for microchip separation devices have been reported; prominent areas have been clinical, pharmaceutical, forensic, and food analyses. Further progress has been made in the development of field portable instrumentation based on CE with contactless conductivity detection. Several reports concern the combination with sample pretreatment techniques, in particular electrodriven extractions. Accounts of arrays of contactless conductivity detectors have appeared, which have been created for quite different tasks requiring spatially resolved information. The trend of the use of contactless conductivity measurements for applications other than CE has continued. |
| Author | Hauser, Peter C. Kubáň, Pavel |
| Author_xml | – sequence: 1 givenname: Pavel surname: Kubáň fullname: Kubáň, Pavel organization: Institute of Analytical Chemistry of the Academy of Sciences of the Czech Republic, Brno, Czech Republic – sequence: 2 givenname: Peter C. surname: Hauser fullname: Hauser, Peter C. email: peter.hauser@unibas.ch organization: Department of Chemistry, University of Basel, Basel, Switzerland |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/25113795$$D View this record in MEDLINE/PubMed |
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| Keywords | Capillary electrophoresis Microchip electrophoresis Capacitively coupled contactless conductivity detection |
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| Snippet | The review covers the progress of capacitively coupled contactless conductivity detection over the 2 years leading up to mid‐2014. During this period many new... The review covers the progress of capacitively coupled contactless conductivity detection over the 2 years leading up to mid-2014. During this period many new... |
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| SubjectTerms | Animals Arrays Capacitively coupled contactless conductivity detection Capillary electrophoresis detectors Devices Electric Conductivity electrophoresis Electrophoresis, Capillary - instrumentation Electrophoresis, Capillary - methods Electrophoresis, Microchip - instrumentation Electrophoresis, Microchip - methods Environmental Monitoring - instrumentation Environmental Monitoring - methods Equipment Design Flow Injection Analysis - instrumentation Flow Injection Analysis - methods Food Analysis - instrumentation Food Analysis - methods Foods forensic sciences Humans Instrumentation Joining Mathematical analysis Microchip electrophoresis Tasks Trends |
| Title | Contactless conductivity detection for analytical techniques-Developments from 2012 to 2014 |
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