Conjugated Amplifying Polymers for Optical Sensing Applications

Thanks to their unique optical and electrochemical properties, conjugated polymers have attracted considerable attention over the last two decades and resulted in numerous technological innovations. In particular, their implementation in sensing schemes and devices was widely investigated and produc...

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Published in	ACS applied materials & interfaces Vol. 5; no. 11; pp. 4488 - 4502
Main Authors	Rochat, Sébastien, Swager, Timothy M
Format	Journal Article
Language	English
Published	United States American Chemical Society 12.06.2013
Subjects	absorption Biosensing Techniques - methods electrochemistry electron transfer Electronics, Medical - methods energy Fluorescence Optics and Photonics - methods polymers Polymers - chemistry solubility Transducers wavelengths explosive detection biosensing chemical sensing fluorescence conjugated polymers fluorescence quenching
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Abstract	Thanks to their unique optical and electrochemical properties, conjugated polymers have attracted considerable attention over the last two decades and resulted in numerous technological innovations. In particular, their implementation in sensing schemes and devices was widely investigated and produced a multitude of sensory systems and transduction mechanisms. Conjugated polymers possess numerous attractive features that make them particularly suitable for a broad variety of sensing tasks. They display sensory signal amplification (compared to their small-molecule counterparts) and their structures can easily be tailored to adjust solubility, absorption/emission wavelengths, energy offsets for excited state electron transfer, and/or for use in solution or in the solid state. This versatility has made conjugated polymers a fluorescence sensory platform of choice in the recent years. In this review, we highlight a variety of conjugated polymer-based sensory mechanisms together with selected examples from the recent literature.
AbstractList	Thanks to their unique optical and electrochemical properties, conjugated polymers have attracted considerable attention over the last two decades and resulted in numerous technological innovations. In particular, their implementation in sensing schemes and devices was widely investigated and produced a multitude of sensory systems and transduction mechanisms. Conjugated polymers possess numerous attractive features that make them particularly suitable for a broad variety of sensing tasks. They display sensory signal amplification (compared to their small-molecule counterparts) and their structures can easily be tailored to adjust solubility, absorption/emission wavelengths, energy offsets for excited state electron transfer, and/or for use in solution or in the solid state. This versatility has made conjugated polymers a fluorescence sensory platform of choice in the recent years. In this review, we highlight a variety of conjugated polymer-based sensory mechanisms together with selected examples from the recent literature.Thanks to their unique optical and electrochemical properties, conjugated polymers have attracted considerable attention over the last two decades and resulted in numerous technological innovations. In particular, their implementation in sensing schemes and devices was widely investigated and produced a multitude of sensory systems and transduction mechanisms. Conjugated polymers possess numerous attractive features that make them particularly suitable for a broad variety of sensing tasks. They display sensory signal amplification (compared to their small-molecule counterparts) and their structures can easily be tailored to adjust solubility, absorption/emission wavelengths, energy offsets for excited state electron transfer, and/or for use in solution or in the solid state. This versatility has made conjugated polymers a fluorescence sensory platform of choice in the recent years. In this review, we highlight a variety of conjugated polymer-based sensory mechanisms together with selected examples from the recent literature. Thanks to their unique optical and electrochemical properties, conjugated polymers have attracted considerable attention over the last two decades and resulted in numerous technological innovations. In particular, their implementation in sensing schemes and devices was widely investigated and produced a multitude of sensory systems and transduction mechanisms. Conjugated polymers possess numerous attractive features that make them particularly suitable for a broad variety of sensing tasks. They display sensory signal amplification (compared to their small-molecule counterparts) and their structures can easily be tailored to adjust solubility, absorption/emission wavelengths, energy offsets for excited state electron transfer, and/or for use in solution or in the solid state. This versatility has made conjugated polymers a fluorescence sensory platform of choice in the recent years. In this review, we highlight a variety of conjugated polymer-based sensory mechanisms together with selected examples from the recent literature.
Author	Rochat, Sébastien Swager, Timothy M
AuthorAffiliation	Massachusetts Institute of Technology
AuthorAffiliation_xml	– name: Massachusetts Institute of Technology
Author_xml	– sequence: 1 givenname: Sébastien surname: Rochat fullname: Rochat, Sébastien – sequence: 2 givenname: Timothy M surname: Swager fullname: Swager, Timothy M email: tswager@mit.edu
BackLink	https://www.ncbi.nlm.nih.gov/pubmed/23682919$$D View this record in MEDLINE/PubMed
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ContentType	Journal Article
Copyright	Copyright © 2013 American Chemical Society
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Snippet	Thanks to their unique optical and electrochemical properties, conjugated polymers have attracted considerable attention over the last two decades and resulted...
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SubjectTerms	absorption Biosensing Techniques - methods electrochemistry electron transfer Electronics, Medical - methods energy Fluorescence Optics and Photonics - methods polymers Polymers - chemistry solubility Transducers wavelengths
Title	Conjugated Amplifying Polymers for Optical Sensing Applications
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