Contents:
Introduction– MFCs and BESs in the context of environmental and industrial biotechnology
Korneel Rabaey, Jurg Keller, Lars Angenent, Piet Lens, Uwe Schroder
From biofuels and biochemicals to bioenergy and the role of micro-organisms for their production
Alfons Stams and Caroline Plugge, and Jules van Lier
Enzymatic fuel cells and their complementarity relative to BES/MFC
Zana Zulic and Shelley Minteer
Shuttling via soluble compounds
Enrico Marsili and Xiaoming Zhang
Direct electron shuttling via membrane associated compounds
Orianna Bretschger, Yuri A Gorby, Kenneth H Nealson
Designing microbial extracellular electron transfer
Lars Angenent and Miriam Rosenbaum
Electrochemical losses defining BES performance
Uwe Schroder
Measurement techniques
Florian Mansfeld, Daniel Lowy, Daniel Bond
Materials for BES
Bruce Logan
Technological factors affecting BES performance and bottlenecks towards scale up
Bert Hamelers
Organics oxidation
Stefano Freguia
Sulphur conversions
Paritam Kumar Dutta, Jurg Keller, Zhiguo Yuan, Rene Rozendal
Electrochemical reductions
Rene Rozendal and Uwe Schroder
Bio-electrochemical reductions in reactor systems
Peter Clauwaert
Bio-electrochemical systems for soil bioremediation
Federico Aulenta and Mauro Majone
Conversions driving deep sea power production
Peter Girguis
From BOD to toxicity: bacteria as universal sensors
Byung Hong Kim and In Seop Chang
Feedstocks for BES conversions
Freda R Hawkes, Jun Rae Kim, Godfrey Kyazze, Giuliano C Premier, Alan J Guwy
Integrating BES in the water and sludge line
Lars Angenent and Miriam Rosenbaum
Peripherals of BES – from processing current to data transmission
Ioannis Ieropoulos, John Greenman, Chris Melhuish
Towards a mathematical description of Bioelectrochemical systems
Jorge Rodriguez
Towards the bio-electrochemical refinery
Korneel Rabaey and Jurg Keller, Lars Angenent, Piet Lens and Uwe Schroder