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No re-calibration required? Stability of a bioelectrochemical sensor for biodegradable organic matter over 800 days

No re-calibration required? Stability of a bioelectrochemical sensor for biodegradable organic matter over 800 days
No re-calibration required? Stability of a bioelectrochemical sensor for biodegradable organic matter over 800 days

Microbial Fuel Cells (MFCs) operated as biosensors could potentially enable truly low-cost, real-time monitoring of organic loading in wastewaters. The current generated by MFCs has been correlated with conventional measures of organic load such as Biochemical Oxygen Demand (BOD), but much remains to be established in terms of the reliability and applicability of such sensors. In this study, batch-mode and multi-stage, flow-mode MFCs were operated for over 800 days and regularly re-calibrated with synthetic wastewater containing glucose and glutamic acid (GGA). BOD5 calibration curves were obtained by normalising the current measured as a percentage of maximum current. There was little drift between recalibrations and non-linear Hill models of the combined dataset had R2 of 88–95%, exhibiting a stable response over time and across devices. Nonetheless, factors which do affect calibration were also assessed. Increasing external resistance (from 43.5 to 5100 Ω) above the internal resistance determined by polarisation curve decreased the calibration upper limit from 240 to 30 mg/l O2 BOD5. Furthermore, more fermentable carbon sources increased the detection range, as tested with samples of real wastewater and synthetic media containing GGA, glucose-only and glutamic acid-only. Biofilm acclimatisation therefore did not account for differences between aerobic oxygen demand determinations and anaerobic MFC responses; these are likely attributable to competitive processes such as fermentation. This further highlights the potential for MFCs as real-time sensors for organic load monitoring and process control in addition to BOD-compliant measurement systems.

Calibration, Microbial fuel cell, Resistance, Substrate
0956-5663
Spurr, Martin WA
78e1284f-f5fe-4abb-a3fe-292a4b6a728f
Yu, Eileen H.
28e47863-4b50-4821-b80b-71fb5a2edef2
Scott, Keith
38909157-296d-4fe7-a245-1b98e1fee913
Head, Ian M.
45e5ea84-bd86-4ffd-a6e3-64b23dc711d2
Spurr, Martin WA
78e1284f-f5fe-4abb-a3fe-292a4b6a728f
Yu, Eileen H.
28e47863-4b50-4821-b80b-71fb5a2edef2
Scott, Keith
38909157-296d-4fe7-a245-1b98e1fee913
Head, Ian M.
45e5ea84-bd86-4ffd-a6e3-64b23dc711d2

Spurr, Martin WA, Yu, Eileen H., Scott, Keith and Head, Ian M. (2021) No re-calibration required? Stability of a bioelectrochemical sensor for biodegradable organic matter over 800 days. Biosensors and Bioelectronics, 190, [113392]. (doi:10.1016/j.bios.2021.113392).

Record type: Article

Abstract

Microbial Fuel Cells (MFCs) operated as biosensors could potentially enable truly low-cost, real-time monitoring of organic loading in wastewaters. The current generated by MFCs has been correlated with conventional measures of organic load such as Biochemical Oxygen Demand (BOD), but much remains to be established in terms of the reliability and applicability of such sensors. In this study, batch-mode and multi-stage, flow-mode MFCs were operated for over 800 days and regularly re-calibrated with synthetic wastewater containing glucose and glutamic acid (GGA). BOD5 calibration curves were obtained by normalising the current measured as a percentage of maximum current. There was little drift between recalibrations and non-linear Hill models of the combined dataset had R2 of 88–95%, exhibiting a stable response over time and across devices. Nonetheless, factors which do affect calibration were also assessed. Increasing external resistance (from 43.5 to 5100 Ω) above the internal resistance determined by polarisation curve decreased the calibration upper limit from 240 to 30 mg/l O2 BOD5. Furthermore, more fermentable carbon sources increased the detection range, as tested with samples of real wastewater and synthetic media containing GGA, glucose-only and glutamic acid-only. Biofilm acclimatisation therefore did not account for differences between aerobic oxygen demand determinations and anaerobic MFC responses; these are likely attributable to competitive processes such as fermentation. This further highlights the potential for MFCs as real-time sensors for organic load monitoring and process control in addition to BOD-compliant measurement systems.

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More information

e-pub ahead of print date: 4 June 2021
Published date: 15 October 2021
Keywords: Calibration, Microbial fuel cell, Resistance, Substrate
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Identifiers

Local EPrints ID: 498923
URI: http://eprints.soton.ac.uk/id/eprint/498923
DOI: doi:10.1016/j.bios.2021.113392
ISSN: 0956-5663
PURE UUID: 21c93bc7-da98-45ce-92e5-d005c884ec63
ORCID for Eileen H. Yu: ORCID iD orcid.org/0000-0002-6872-975X

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Date deposited: 04 Mar 2025 18:09
Last modified: 18 Sep 2025 02:14

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Contributors

Author: Martin WA Spurr
Author: Eileen H. Yu ORCID iD
Author: Keith Scott
Author: Ian M. Head

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