Ioannis Andrea Ieropoulos
Ioannis Andrea Ieropoulos
Chair in Environmental Engineering, Civil, Maritime and Environmental Engineering, Engineering and
Verified email at - Homepage
Cited by
Cited by
Microbial fuel cells: From fundamentals to applications. A review
C Santoro, C Arbizzani, B Erable, I Ieropoulos
Journal of power sources 356, 225-244, 2017
Comparative study of three types of microbial fuel cell
IA Ieropoulos, J Greenman, C Melhuish, J Hart
Enzyme and microbial technology 37 (2), 238-245, 2005
Microbial fuel cells based on carbon veil electrodes: stack configuration and scalability
I Ieropoulos, J Greenman, C Melhuish
International Journal of Energy Research 32 (13), 1228-1240, 2008
Electricity from landfill leachate using microbial fuel cells: comparison with a biological aerated filter
J Greenman, A Gálvez, L Giusti, I Ieropoulos
Enzyme and Microbial Technology 44 (2), 112-119, 2009
Effects of flow-rate, inoculum and time on the internal resistance of microbial fuel cells
I Ieropoulos, J Winfield, J Greenman
Bioresource technology 101 (10), 3520-3525, 2010
Urine utilisation by microbial fuel cells; energy fuel for the future
I Ieropoulos, J Greenman, C Melhuish
Physical Chemistry Chemical Physics 14 (1), 94-98, 2012
A small-scale air-cathode microbial fuel cell for on-line monitoring of water quality
M Di Lorenzo, AR Thomson, K Schneider, PJ Cameron, I Ieropoulos
Biosensors and Bioelectronics 62, 182-188, 2014
Waste to real energy: the first MFC powered mobile phone
IA Ieropoulos, P Ledezma, A Stinchcombe, G Papaharalabos, C Melhuish, ...
Physical Chemistry Chemical Physics 15 (37), 15312-15316, 2013
Energetically autonomous robots: Food for thought
C Melhuish, I Ieropoulos, J Greenman, I Horsfield
Autonomous Robots 21 (3), 187-198, 2006
Landfill leachate treatment with microbial fuel cells; scale-up through plurality
A Gálvez, J Greenman, I Ieropoulos
Bioresource technology 100 (21), 5085-5091, 2009
Improved energy output levels from small-scale microbial fuel cells
I Ieropoulos, J Greenman, C Melhuish
Bioelectrochemistry 78 (1), 44-50, 2010
Pee power urinal–microbial fuel cell technology field trials in the context of sanitation
IA Ieropoulos, A Stinchcombe, I Gajda, S Forbes, I Merino-Jimenez, ...
Environmental Science: Water Research & Technology 2 (2), 336-343, 2016
Self-sustainable electricity production from algae grown in a microbial fuel cell system
I Gajda, J Greenman, C Melhuish, I Ieropoulos
Biomass and Bioenergy 82, 87-93, 2015
Towards effective small scale microbial fuel cells for energy generation from urine
J Chouler, GA Padgett, PJ Cameron, K Preuss, MM Titirici, I Ieropoulos, ...
Electrochimica acta 192, 89-98, 2016
The overshoot phenomenon as a function of internal resistance in microbial fuel cells
J Winfield, I Ieropoulos, J Greenman, J Dennis
Bioelectrochemistry 81 (1), 22-27, 2011
A review into the use of ceramics in microbial fuel cells
J Winfield, I Gajda, J Greenman, I Ieropoulos
Bioresource technology 215, 296-303, 2016
Parameters characterization and optimization of activated carbon (AC) cathodes for microbial fuel cell application
C Santoro, K Artyushkova, S Babanova, P Atanassov, I Ieropoulos, ...
Bioresource technology 163, 54-63, 2014
Energy accumulation and improved performance in microbial fuel cells
I Ieropoulos, J Greenman, C Melhuish, J Hart
Journal of power sources 145 (2), 253-256, 2005
EcoBot-II: An artificial agent with a natural metabolism
I Ieropoulos, C Melhuish, J Greenman, I Horsfield
International Journal of Advanced Robotic Systems 2 (4), 31, 2005
EcoBot-III-A Robot with Guts.
I Ieropoulos, J Greenman, C Melhuish, I Horsfield
ALIFE 733, e40, 2010
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