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A High‐Performance Membraneless Microfluidic Microbial Fuel Cell for Stable, Long‐Term Benchtop Operation Under Strong Flow

Mehran Abbaszadeh Amirdehi, Nastaran Khodaparastasgarabad, Hamza Landari, Mir Pouyan Zarabadi, Amine Miled, Jesse Greener

2020ChemElectroChem45 citationsDOIOpen Access PDF

Abstract

Abstract Strong control over experimental conditions in microfluidic channels provides a unique opportunity to study and optimize membraneless microbial fuel cells (MFCs), particularly with respect to the role of flow. However, improved performance and transferability of results to the wider MFC community require improvements to device stability under all applied operational conditions. To address these challenges, we present an easy‐to‐fabricate membraneless MFC that combines i) O 2 protection via a gas diffusion barrier, ii) integrated graphite electrodes, and iii) optimized electrode placement to avoid cross‐contamination under all applied flow rates. Attention to all of these design features in the same platform resulted in the operation of a MFC with a pure‐culture anaerobic Geobacter sulfurreducens biofilm for half a year, that is, six times longer than previously reported, without the use of an oxygen scavenger. As a result of higher device stability under high flow rates, power densities were four times higher than reported previously for microfluidic MFCs with the same biofilm.

Topics & Concepts

MicrofluidicsTerm (time)Flow (mathematics)Environmental scienceMaterials sciencePetroleum engineeringProcess engineeringNanotechnologyEngineeringMechanicsPhysicsQuantum mechanicsMicrobial Fuel Cells and BioremediationElectrochemical sensors and biosensorsSupercapacitor Materials and Fabrication
A High‐Performance Membraneless Microfluidic Microbial Fuel Cell for Stable, Long‐Term Benchtop Operation Under Strong Flow | Litcius