R
Ruggero Rossi
Researcher at Pennsylvania State University
Publications - 41
Citations - 1891
Ruggero Rossi is an academic researcher from Pennsylvania State University. The author has contributed to research in topics: Microbial fuel cell & Anode. The author has an hindex of 14, co-authored 34 publications receiving 948 citations. Previous affiliations of Ruggero Rossi include University of Bologna.
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Electroactive microorganisms in bioelectrochemical systems
TL;DR: The diversity of exoelectrogenic and electrotrophic microorganisms and their functions provide new opportunities for electrochemical devices, such as microbial fuel cells that generate electricity or microbial electrolysis cells that produce hydrogen or methane.
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Evaluating a multi-panel air cathode through electrochemical and biotic tests.
Ruggero Rossi,David Jones,Jaewook Myung,Emily Zikmund,Wulin Yang,Yolanda Alvarez Gallego,Deepak Pant,Patrick J. Evans,Martin A. Page,Donald M. Cropek,Bruce E. Logan +10 more
TL;DR: A new type of cathode design was examined here that uses a "window-pane" approach with fifteen smaller cathodes welded to a single conductive metal sheet to maintain good electrical conductivity across the cathode with an increase in total area.
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Low-cost Fe–N–C catalyst derived from Fe (III)-chitosan hydrogel to enhance power production in microbial fuel cells
TL;DR: In this article, a low cost Fe-N-C catalyst on an activated carbon (AC) support was synthesized from inexpensive ferric chloride and chitosan precursors to enhance power production by microbial fuel cells.
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In situ biofilm removal from air cathodes in microbial fuel cells treating domestic wastewater.
TL;DR: In-situ cleaning technique improved the performance of the MFC over time by reducing biofouling due to biofilm formation on the air cathodes by 75% and 28% respectively.
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Evaluation of Electrode and Solution Area-Based Resistances Enables Quantitative Comparisons of Factors Impacting Microbial Fuel Cell Performance.
TL;DR: The analysis of the literature using EPS analysis shows how electrode resistances can easily be quantified to compare system performance when the electrode distances are changed or the sizes of the electrodes are different, to enable quantitative comparisons based on anode and cathode area-based resistances and operating potentials.