Jiseon You
Cited by
Cited by
Electricity generation and struvite recovery from human urine using microbial fuel cells
J You, J Greenman, C Melhuish, I Ieropoulos
Journal of Chemical Technology & Biotechnology 91 (3), 647-654, 2016
Microbial fuel cells and their electrified biofilms
J Greenman, I Gajda, J You, BA Mendis, O Obata, G Pasternak, ...
Biofilm 3, 100057, 2021
3D printed components of microbial fuel cells: Towards monolithic microbial fuel cell fabrication using additive layer manufacturing
J You, RJ Preen, L Bull, J Greenman, I Ieropoulos
Sustainable Energy Technologies and Assessments 19, 94-101, 2017
From the lab to the field: Self-stratifying microbial fuel cells stacks directly powering lights
XA Walter, J You, J Winfield, U Bajarunas, J Greenman, IA Ieropoulos
Applied energy 277, 115514, 2020
Micro-porous layer (MPL)-based anode for microbial fuel cells
J You, C Santoro, J Greenman, C Melhuish, P Cristiani, B Li, I Ieropoulos
International Journal of Hydrogen Energy 39 (36), 21811-21818, 2014
Urine in bioelectrochemical systems: an overall review
C Santoro, MJS Garcia, XA Walter, J You, P Theodosiou, I Gajda, O Obata, ...
ChemElectroChem 7 (6), 1312-1331, 2020
Artificial neural network simulating microbial fuel cells with different membrane materials and electrode configurations
MA Tsompanas, J You, L Wallis, J Greenman, I Ieropoulos
Journal of Power Sources 436, 226832, 2019
Stability and reliability of anodic biofilms under different feedstock conditions: Towards microbial fuel cell sensors
J You, XA Walter, J Greenman, C Melhuish, I Ieropoulos
Sensing and bio-sensing research 6, 43-50, 2015
A new method for urine electrofiltration and long term power enhancement using surface modified anodes with activated carbon in ceramic microbial fuel cells
I Gajda, J You, C Santoro, J Greenman, IA Ieropoulos
Electrochimica Acta 353, 136388, 2020
Microbial fuel cells in the house: A study on real household wastewater samples for treatment and power
J You, J Greenman, IA Ieropoulos
Sustainable Energy Technologies and Assessments 48, 101618, 2021
Novel analytical microbial fuel cell design for rapid in situ optimisation of dilution rate and substrate supply rate, by flow, volume control and anode placement
J You, J Greenman, I Ieropoulos
Energies 11 (9), 2377, 2018
Neural networks predicting microbial fuel cells output for soft robotics applications
MA Tsompanas, J You, H Philamore, J Rossiter, I Ieropoulos
Frontiers in Robotics and AI 8, 633414, 2021
A comprehensive study of custom-made ceramic separators for microbial fuel cells: towards “living” bricks
J You, L Wallis, N Radisavljevic, G Pasternak, VM Sglavo, MM Hanczyc, ...
Energies 12 (21), 4071, 2019
Complete microbial fuel cell fabrication using additive layer manufacturing
J You, H Fan, J Winfield, IA Ieropoulos
Molecules 25 (13), 3051, 2020
Multidimensional Benefits of Improved Sanitation: Evaluating ‘PEE POWER®’ in Kisoro, Uganda
J You, C Staddon, A Cook, J Walker, J Boulton, W Powell, I Ieropoulos
International journal of environmental research and public health 17 (7), 2175, 2020
Living architecture: toward energy generating buildings powered by microbial fuel cells
J You, GA Rimbu, L Wallis, J Greenman, I Ieropoulos
Frontiers in Energy Research 7, 94, 2019
A new method for modulation, control and power boosting in microbial fuel cells
IA Ieropoulos, J You, I Gajda, J Greenman
Fuel Cells 18 (5), 663-668, 2018
The practical implementation of microbial fuel cell technology
I Ieropoulos, J Winfield, I Gajda, A Walter, G Papaharalabos, IM Jimenez, ...
Microbial Electrochemical and Fuel Cells, 357-380, 2016
Urine—waste or resource? The economic and social aspects
I Ieropoulos, I Gajda, J You, J Greenman
Reviews in Advanced Sciences and Engineering 2 (3), 192-199, 2013
Design mining microbial fuel cell cascades
RJ Preen, J You, L Bull, IA Ieropoulos
Soft Computing 23, 4673-4683, 2019
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