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EHLICH, J. SZYDLOWSKI, L.
Original Title
High throughput platform for identification and characterization of electrogenic bacteria.
Type
abstract
Language
English
Original Abstract
Electrogenic and electron accepting capability of some bacteria strains, are important phenomena which promises advances in the fields of electronically stimulated biotechnological production of valuable chemicals, wastewater treatment, bioremediation, desalination, energy production, novel materials discovery and whole-cell biosensing. Significant boost towards this direction can be achieved with application of high throughput methods known from other biological disciplines. However there is currently a lack of standard and reliable hardware which would enable the same approach in the field of electrogenic bacteria. Thus we present a platform based on standard Microplate setup with 24 or 96 single chamber air-cathode Microbial Fuel Cells (MFCs) with integrated reference electrode inside each chamber. All electrodes are individually addressable. The device enables the direct and parallel comparative analysis of microbes from different sources or under different conditions such as electrode potential, pH and growth medium.
Keywords
High throughput, Microbial fuel cell, MFC, electrogenic bacteria, Bioelectronics
Authors
EHLICH, J.; SZYDLOWSKI, L.
Released
14. 6. 2021
Publisher
International symposium on flexible organic electronics
Location
Thessaloniki, Greece
Pages count
1
URL
https://www.nanotexnology.com/index.php/isfoe21-program
BibTex
@misc{BUT172126, author="Jiří {Ehlich} and Lukasz {Szydlowski}", title="High throughput platform for identification and characterization of electrogenic bacteria.", year="2021", pages="1", publisher="International symposium on flexible organic electronics", address="Thessaloniki, Greece", url="https://www.nanotexnology.com/index.php/isfoe21-program", note="abstract" }