H
Haluk Beyenal
Researcher at Washington State University
Publications - 209
Citations - 11089
Haluk Beyenal is an academic researcher from Washington State University. The author has contributed to research in topics: Biofilm & Microbial fuel cell. The author has an hindex of 51, co-authored 199 publications receiving 9302 citations. Previous affiliations of Haluk Beyenal include Hacettepe University & Washington State University Spokane.
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Journal ArticleDOI
Extracellular electron transfer mechanisms between microorganisms and minerals
Liang Shi,Hailiang Dong,Gemma Reguera,Haluk Beyenal,Anhuai Lu,Juan Liu,Han-Qing Yu,James K. Fredrickson +7 more
TL;DR: The molecular mechanisms that underlie the ability of microorganisms to exchange electrons, such as c-type cytochromes and microbial nanowires, with extracellular minerals and with microorganisms of the same or different species are discussed.
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Quorum Sensing: A New Biofouling Control Paradigm in a Membrane Bioreactor for Advanced Wastewater Treatment
Kyung-Min Yeon,Won-Seok Cheong,Hyun-Suk Oh,Woo-Nyoung Lee,Byung-Kook Hwang,Chung-Hak Lee,Haluk Beyenal,Zbigniew Lewandowski +7 more
TL;DR: Porcine kidney acylase I, which can inactivate the AHL molecule by amide bond cleavage, was confirmed to prevent membrane biofouling by quenching AHL autoinducers, and it was concluded that QS could be a novel target for biofOUling control in MBRs.
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Compromised Host Defense on Pseudomonas aeruginosa Biofilms: Characterization of Neutrophil and Biofilm Interactions
Algirdas J. Jesaitis,Michael J. Franklin,Deborah L. Berglund,Maiko Sasaki,Connie I. Lord,Justin B. Bleazard,James E. Duffy,Haluk Beyenal,Zbigniew Lewandowski +8 more
TL;DR: After neutrophils settle on P. aeruginosa biofilms, they become phagocytically engorged, partially degranulated, immobilized, and rounded, and host defense becomes compromised as biofilm bacteria escape while neutrophil remain immobilized with a diminished oxidative potential.
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Microbial fuel cell using anaerobic respiration as an anodic reaction and biomineralized manganese as a cathodic reactant.
TL;DR: It is demonstrated that biomineralized manganese oxides are superiorto oxygen when used as cathodic reactants in microbial fuel cells.
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Wireless sensors powered by microbial fuel cells.
TL;DR: A microbial fuel cell was designed to power electrochemical sensors and small telemetry systems to transmit the data acquired by the sensors to remote receivers, providing a stable power source for wireless data transmission.