Preprint Review Version 1 Preserved in Portico This version is not peer-reviewed

Potentiometric Biosensing Applications of Graphene Electrode with Stabilized Polymer Lipid Membranes

Georgia-Pareaskevi Nikoleli
* ORCID logo ,
Dimitrios P. Nikolelis
ORCID logo ,
Christina G. Siontorou
,
Marianna-Thalia Nikolelis
,
Stephanos Karapetis
ORCID logo
Version 1 : Received: 27 May 2018 / Approved: 28 May 2018 / Online: 28 May 2018 (13:38:53 CEST)

A peer-reviewed article of this Preprint also exists.

Nikoleli, G.-P.; Nikolelis, D.P.; Siontorou, C.G.; Nikolelis, M.-T.; Karapetis, S. Potentiometric Biosensing Applications of Graphene Electrodes with Stabilized Polymer Lipid Membranes. Chemosensors 2018, 6, 25. Nikoleli, G.-P.; Nikolelis, D.P.; Siontorou, C.G.; Nikolelis, M.-T.; Karapetis, S. Potentiometric Biosensing Applications of Graphene Electrodes with Stabilized Polymer Lipid Membranes. Chemosensors 2018, 6, 25.

Abstract

This review provides informations and details for the fabrication of biosensors that are composed from lipid membranes and have been utilized and applied to rapidly detect food toxic compounds, environmental pollutants and analytes of clinical interest. Biosensors based on polymeric lipid membranes have been used to rapidly detect a wide range of these analytes and offer several advantages such as fast response, high sensitivity and selectivity, can be portable for in the field applications, and small size. A description of the construction of these devices and their applications for the rapid detection of food toxic substance, environmental pollutants and analytes of clinical interest is provided in this review.

Keywords

biosensors; lipid membranes; potentiometry, graphene electrodes

Subject

Chemistry and Materials Science, Analytical Chemistry

Copyright: This is an open access article distributed under the Creative Commons Attribution License which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

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