Microbial electrochemical systems utilize the electrochemical interaction between microorganisms and electrode surfaces to convert chemical energy into electrical energy, offering a promise as technologies for wastewater treatment, bioremediation, and biofuel production. Recently, growing research attention has been devoted to the development of microbial electrochemical sensrs as biosensing platforms. Microbial electrochemical sensors are a type of microbial electrochemical technology (MET) capable of sensing through the anodic or the cathodic electroactive microorganisms and/or biofilms. Herein, we review and summarize the recent advances in the design of microbial electrochemical sensing approaches with a specific overview and discussion of anodic and cathodic microbial electrochemical sensor devices, highlighting both the advantages and disadvantages. Particular emphasis is given on the current trends and strategies in the design of low-cost, convenient, efficient, and high performing METs with different biosensing applications, including toxicity monitoring, pathogen detection, corrosion monitoring, as well as measurements of biological oxygen demand, chemical oxygen demand, and dissolved oxygen. The conclusion provides perspectives and an outlook to understand the shortcomings in the design, development status, and sensing applications of microbial electrochemical platforms. Namely, we discuss key challenges that limit the practical implementation of METs for sensing purposes and deliberate potential solutions, necessary developments, and improvements in the field.

Simoska, O., Gaffney, E., Minteer, S., Franzetti, A., Cristiani, P., Grattieri, M., et al. (2021). Recent trends and advances in microbial electrochemical sensing technologies: An overview. CURRENT OPINION IN ELECTROCHEMISTRY, 30(December 2021) [10.1016/j.coelec.2021.100762].

Recent trends and advances in microbial electrochemical sensing technologies: An overview

Franzetti A.;Santoro C.
Ultimo
2021

Abstract

Microbial electrochemical systems utilize the electrochemical interaction between microorganisms and electrode surfaces to convert chemical energy into electrical energy, offering a promise as technologies for wastewater treatment, bioremediation, and biofuel production. Recently, growing research attention has been devoted to the development of microbial electrochemical sensrs as biosensing platforms. Microbial electrochemical sensors are a type of microbial electrochemical technology (MET) capable of sensing through the anodic or the cathodic electroactive microorganisms and/or biofilms. Herein, we review and summarize the recent advances in the design of microbial electrochemical sensing approaches with a specific overview and discussion of anodic and cathodic microbial electrochemical sensor devices, highlighting both the advantages and disadvantages. Particular emphasis is given on the current trends and strategies in the design of low-cost, convenient, efficient, and high performing METs with different biosensing applications, including toxicity monitoring, pathogen detection, corrosion monitoring, as well as measurements of biological oxygen demand, chemical oxygen demand, and dissolved oxygen. The conclusion provides perspectives and an outlook to understand the shortcomings in the design, development status, and sensing applications of microbial electrochemical platforms. Namely, we discuss key challenges that limit the practical implementation of METs for sensing purposes and deliberate potential solutions, necessary developments, and improvements in the field.
Articolo in rivista - Review Essay
BOD measurements; Dissolved oxygen; Microbial electrochemical sensors; Pathogen detection; Toxicity;
English
20-mag-2021
2021
30
December 2021
100762
reserved
Simoska, O., Gaffney, E., Minteer, S., Franzetti, A., Cristiani, P., Grattieri, M., et al. (2021). Recent trends and advances in microbial electrochemical sensing technologies: An overview. CURRENT OPINION IN ELECTROCHEMISTRY, 30(December 2021) [10.1016/j.coelec.2021.100762].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10281/354702
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