Articles with public access mandates - Stefano FreguiaLearn more
Not available anywhere: 23
Urea hydrolysis and long-term storage of source-separated urine for reuse as fertiliser is insufficient for the removal of anthropogenic micropollutants
J Monetti, L Nieradzik, S Freguia, PM Choi, JW O'Brien, KV Thomas, ...
Water Research 222, 118891, 2022
Mandates: Australian Research Council
Effect of biomass concentration on methane oxidation activity using mature compost and graphite granules as substrata
S Xie, T O’Dwyer, S Freguia, I Pikaar, WP Clarke
Waste management 56, 290-297, 2016
Mandates: Australian Research Council
Extracellular electron transfer by Microcystis aeruginosa is solely driven by high pH
RV Lemos, S Tsujimura, P Ledezma, Y Tokunou, A Okamoto, S Freguia
Bioelectrochemistry 137, 107637, 2021
Mandates: Australian Research Council
Available somewhere: 33
Microbial fuel cells: methodology and technology
BE Logan, B Hamelers, R Rozendal, U Schröder, J Keller, S Freguia, ...
Environmental science & technology 40 (17), 5181-5192, 2006
Mandates: German Research Foundation
The anode potential regulates bacterial activity in microbial fuel cells
P Aelterman, S Freguia, J Keller, W Verstraete, K Rabaey
Applied microbiology and biotechnology 78, 409-418, 2008
Mandates: Research Foundation (Flanders)
Cathodic oxygen reduction catalyzed by bacteria in microbial fuel cells
K Rabaey, ST Read, P Clauwaert, S Freguia, PL Bond, LL Blackall, ...
The ISME journal 2 (5), 519-527, 2008
Mandates: Research Foundation (Flanders)
High acetic acid production rate obtained by microbial electrosynthesis from carbon dioxide
L Jourdin, T Grieger, J Monetti, V Flexer, S Freguia, Y Lu, J Chen, ...
Environmental science & technology 49 (22), 13566-13574, 2015
Mandates: Australian Research Council
A novel carbon nanotube modified scaffold as an efficient biocathode material for improved microbial electrosynthesis
L Jourdin, S Freguia, BC Donose, J Chen, GG Wallace, J Keller, V Flexer
Journal of Materials Chemistry A 2 (32), 13093-13102, 2014
Mandates: Australian Research Council
Bringing High-Rate, CO2-Based Microbial Electrosynthesis Closer to Practical Implementation through Improved Electrode Design and Operating Conditions
L Jourdin, S Freguia, V Flexer, J Keller
Environmental science & technology 50 (4), 1982-1989, 2016
Mandates: Australian Research Council
Biologically induced hydrogen production drives high rate/high efficiency microbial electrosynthesis of acetate from carbon dioxide
L Jourdin, Y Lu, V Flexer, J Keller, S Freguia
ChemElectroChem 3 (4), 581-591, 2016
Mandates: Australian Research Council
Flame oxidation of stainless steel felt enhances anodic biofilm formation and current output in bioelectrochemical systems
K Guo, BC Donose, AH Soeriyadi, A Prévoteau, SA Patil, S Freguia, ...
Environmental science & technology 48 (12), 7151-7156, 2014
Mandates: European Commission
Recovering nitrogen as a solid without chemical dosing: bio-electroconcentration for recovery of nutrients from urine
P Ledezma, J Jermakka, J Keller, S Freguia
Environmental Science & Technology Letters 4 (3), 119-124, 2017
Mandates: Australian Research Council
Carbon and electron fluxes during the electricity driven 1, 3-propanediol biosynthesis from glycerol
M Zhou, J Chen, S Freguia, K Rabaey, J Keller
Environmental science & technology 47 (19), 11199-11205, 2013
Mandates: Australian Research Council
Microbial nanowires–electron transport and the role of synthetic analogues
RCG Creasey, AB Mostert, TAH Nguyen, B Virdis, S Freguia, B Laycock
Acta Biomaterialia 69, 1-30, 2018
Mandates: Australian Research Council
Self-powered bioelectrochemical nutrient recovery for fertilizer generation from human urine
S Freguia, ME Logrieco, J Monetti, P Ledezma, B Virdis, S Tsujimura
Sustainability 11 (19), 5490, 2019
Mandates: Australian Research Council
Development of bioelectrocatalytic activity stimulates mixed‐culture reduction of glycerol in a bioelectrochemical system
M Zhou, S Freguia, PG Dennis, J Keller, K Rabaey
Microbial Biotechnology 8 (3), 483-489, 2015
Mandates: Australian Research Council, Research Foundation (Flanders), European Commission
Electro-fermentation: sustainable bioproductions steered by electricity
B Virdis, RD Hoelzle, A Marchetti, ST Boto, MA Rosenbaum, ...
Biotechnology Advances 59, 107950, 2022
Mandates: Australian Research Council, Government of Spain
Methanobacterium enables high rate electricity-driven autotrophic sulfate reduction
G Pozo, L Jourdin, Y Lu, P Ledezma, J Keller, S Freguia
RSC advances 5 (109), 89368-89374, 2015
Mandates: Australian Research Council
Nutrient recovery by bio-electroconcentration is limited by wastewater conductivity
J Monetti, P Ledezma, B Virdis, S Freguia
ACS Omega 4 (1), 2152-2159, 2019
Mandates: Australian Research Council
Electro-concentration for chemical-free nitrogen capture as solid ammonium bicarbonate
J Jermakka, ET Brewster, P Ledezma, S Freguia
Separation and Purification Technology 203, 48-55, 2018
Mandates: Australian Research Council
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