Ultrathin Cell-Membrane-Mimic Phosphorylcholine Polymer Film Coating Enables Large Improvements for InVivo Electrochemical Detection

Ultrathin Cell-Membrane-Mimic Phosphorylcholine Polymer Film Coating Enables Large Improvements for InVivo Electrochemical Detection

Resisting biomolecule adsorption onto the surface of brain-implanted microelectrodes is a key issue for invivo monitoring of neurochemicals. Herein, we demonstrate that an ultrathin cell-membrane-mimic film of ethylenedioxythiophene tailored with zwitterionic phosphorylcholine (EDOT-PC) electropolym...

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Veröffentlicht in:Angewandte Chemie International Edition 2017-09, Vol.56 (39), p.11802
Hauptverfasser: Liu, Xiaomeng, Xiao, Tongfang, Wu, Fei, Shen, Mo-Yuan, Zhang, Meining, Yu, Hsiao-hua, Mao, Lanqun
Format: Artikel
Sprache:eng
Schlagworte:
Adsorption
Brain
Dopamine
Electrochemical analysis
Electrochemistry
Microelectrodes
Monitoring
Phosphorylcholine
Polymer films
Protein adsorption
Resists
Surface chemistry
Time response
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Zusammenfassung:Resisting biomolecule adsorption onto the surface of brain-implanted microelectrodes is a key issue for invivo monitoring of neurochemicals. Herein, we demonstrate that an ultrathin cell-membrane-mimic film of ethylenedioxythiophene tailored with zwitterionic phosphorylcholine (EDOT-PC) electropolymerized onto the surface of a carbon fiber microelectrode (CFE) not only resists protein adsorption but also maintains the sensitivity and time response for invivo monitoring of dopamine (DA). As a consequence, the as-prepared PEDOT-PC/CFEs could be used as a new reliable platform for tracking DA invivo and would help understand the physiological and pathological functions of DA.
ISSN:1433-7851
1521-3773
DOI:10.1002/anie.201705900