Ruggero Rossi
Ruggero Rossi
Johns Hopkins University
Verified email at - Homepage
Cited by
Cited by
Electroactive microorganisms in bioelectrochemical systems
BE Logan, R Rossi, A Ragab, PE Saikaly
Nature Reviews Microbiology 17, 307-319, 2019
Evaluating a multi-panel air cathode through electrochemical and biotic tests
R Rossi, D Jones, J Myung, E Zikmund, W Yang, YA Gallego, D Pant, ...
Water research 148, 51-59, 2019
Low-cost Fe–N–C catalyst derived from Fe (III)-chitosan hydrogel to enhance power production in microbial fuel cells
W Yang, X Wang, R Rossi, BE Logan
Chemical engineering journal 380, 122522, 2020
In situ biofilm removal from air cathodes in microbial fuel cells treating domestic wastewater
R Rossi, W Yang, E Zikmund, D Pant, BE Logan
Bioresource technology 265, 200-206, 2018
Evaluation of electrode and solution area-based resistances enables quantitative comparisons of factors impacting microbial fuel cell performance
R Rossi, BP Cario, C Santoro, W Yang, PE Saikaly, BE Logan
Environmental science & technology 53 (7), 3977-3986, 2019
Impact of ohmic resistance on measured electrode potentials and maximum power production in microbial fuel cells
BE Logan, E Zikmund, W Yang, R Rossi, KY Kim, PE Saikaly, F Zhang
Environmental science & technology 52 (15), 8977-8985, 2018
Pilot scale microbial fuel cells using air cathodes for producing electricity while treating wastewater
R Rossi, AY Hur, MA Page, AOB Thomas, JJ Butkiewicz, DW Jones, ...
Water Research 215, 118208, 2022
Using reverse osmosis membranes to control ion transport during water electrolysis
L Shi, R Rossi, M Son, DM Hall, MA Hickner, CA Gorski, BE Logan
Energy & Environmental Science 13 (9), 3138-3148, 2020
Impact of flow recirculation and anode dimensions on performance of a large scale microbial fuel cell
R Rossi, PJ Evans, BE Logan
Journal of power sources 412, 294-300, 2019
Impact of cathodic electron acceptor on microbial fuel cell internal resistance
K Lawson, R Rossi, JM Regan, BE Logan
Bioresource technology 316, 123919, 2020
Applying the electrode potential slope method as a tool to quantitatively evaluate the performance of individual microbial electrolysis cell components
BP Cario, R Rossi, KY Kim, BE Logan
Bioresource technology 287, 121418, 2019
Assessment of a metal–organic framework catalyst in air cathode microbial fuel cells over time with different buffers and solutions
R Rossi, W Yang, L Setti, BE Logan
Bioresource technology 233, 399-405, 2017
Using an anion exchange membrane for effective hydroxide ion transport enables high power densities in microbial fuel cells
R Rossi, BE Logan
Chemical Engineering Journal 422, 130150, 2021
Enabling the use of seawater for hydrogen gas production in water electrolyzers
BE Logan, L Shi, R Rossi
Joule 5 (4), 760-762, 2021
Unraveling the contributions of internal resistance components in two-chamber microbial fuel cells using the electrode potential slope analysis
R Rossi, BE Logan
Electrochimica Acta 348, 136291, 2020
Impact of external resistance acclimation on charge transfer and diffusion resistance in bench-scale microbial fuel cells
R Rossi, BE Logan
Bioresource technology 318, 123921, 2020
High performance flow through microbial fuel cells with anion exchange membrane
R Rossi, X Wang, BE Logan
Journal of Power Sources 475, 228633, 2020
Quantifying the factors limiting performance and rates in microbial fuel cells using the electrode potential slope analysis combined with electrical impedance spectroscopy
R Rossi, DM Hall, X Wang, JM Regan, BE Logan
Electrochimica Acta 348, 136330, 2020
Characterization of electron mediated microbial fuel cell by Saccharomyces cerevisiae
R Rossi, A Fedrigucci, L Setti
Chemical Engineering Transactions 43, 337-342, 2015
Impact of reactor configuration on pilot-scale microbial fuel cell performance
R Rossi, BE Logan
Water Research 225, 119179, 2022
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