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scopus(10)
A novel miniaturized terrestrial microbial fuel cell reveals rapid electrochemical signals
Conference ObjectAbstract: In this study, a novel miniature terrestrial microbial fuel cells (TMFCs) inoculated with commercialPalabras claves:bioelectricity, electrogenic process, Microbial fuel cells, open circuit voltage, soilAutores:Bakonyi P., Bélafi-Bakó K., Celso Guillermo Recalde Moreno, Kadier A., Magdy M. Echeverría, Nemestóthy N., Rakhely G., Washington N. LogroñoFuentes:scopusA terrestrial single chamber microbial fuel cell-based biosensor for biochemical oxygen demand of synthetic ricewashed wastewater
ArticleAbstract: Microbial fuel cells represent an innovative technology which allow simultaneous waste treatment, elPalabras claves:Biological oxygen demand (BOD), BIOSENSOR, microbial fuel cellAutores:Alex Guambo, Celso Guillermo Recalde Moreno, Kadier A., Mario Pérez, Washington N. LogroñoFuentes:scopusEffect of Inoculum Microbial Diversity in Ex Situ Biomethanation of Hydrogen
ArticleAbstract: The effects of the inoculum origin, temperature or operational changes on ex situ biomethanation byPalabras claves:Biomethane, Homoacetogenesis, hydrogen, hydrogenotrophic methanogens, methanogenic communities, Power-to-Gas, RENEWABLE ENERGYAutores:Harms H., Kleinsteuber S., Kluge P., Nikolausz M., Washington N. LogroñoFuentes:scopusEssential Factors for Performance Improvement and the Implementation of Microbial Electrolysis Cells (MECs)
Book PartAbstract: The microbial electrolysis cell (MEC) is a novel biotechnological process that can translate the chePalabras claves:Anode and cathode materials, Anodic electron transport, Applied voltage in MEC, Biohydrogen gas production, Exoelectrogens, MEC reactor geometry, operating conditionsAutores:Alabbosh K.F.S., Chaurasia A.K., Hamid A.A., Hasan H.A., Ilyas R.A., Kadier A., Ma P.C., Rai P.K., Sapuan S.M., Washington N. LogroñoFuentes:scopusRecent advances and emerging challenges in microbial electrolysis cells (MECs) for microbial production of hydrogen and value-added chemicals
ReviewAbstract: Microbial electrolysis cell (MEC) is a potentially attractive green technology to tackle the globalPalabras claves:Cathode catalysts, Energy efficiency, Exoelectrogens, Hydrogen productionrate(HPR), Hydrogen recovery, Hydrogenproduction, Microbial electrolysis cell(MEC)Autores:Abdeshahian P., Azman N.F., Chandrasekhar K., Hamid A.A., Kadier A., Kalil M.S., Mohamed A., Simayi Y., Washington N. LogroñoFuentes:scopusMicrobial resource management for ex situ biomethanation of hydrogen at alkaline ph
ArticleAbstract: Biomethanation is a promising solution to convert H2 (produced from surplus electricity) and CO2 toPalabras claves:biogas upgrading, Biomethane, Energy storage, Formate, Homoacetogenesis, Hydrogenotrophic methanogenesis, METHANOBACTERIUM, Methanoculleus, Power-to-GasAutores:Harms H., Kleinsteuber S., Nikolausz M., Popp D., Sträuber H., Washington N. LogroñoFuentes:scopusPhysiological Effects of 2‐Bromoethanesulfonate on Hydrogenotrophic Pure and Mixed Cultures
ArticleAbstract: Mixed or pure cultures can be used for biomethanation of hydrogen. Sodium 2‐bromo-ethanesulfonate (BPalabras claves:acetic acid, Biological biogas upgrading, Biomethane, Formate dehydrogenase, Formate synthase, Formic acid, Homoacetogenesis, Methanogenesis, Power to gasAutores:Harms H., Kleinsteuber S., Nikolausz M., Washington N. LogroñoFuentes:scopusNone-platinum electrode catalysts and membranes for highly efficient and inexpensive H<inf>2</inf> production in microbial electrolysis cells (MECs): A review
ArticleAbstract: Microbial electrolysis cell (MEC) is a gripping bio-electrochemical device producing H2 gas from renPalabras claves:Anode materials, Biocathode, Cathode catalysts, Hydrogen production, Hydrogen production rate (HPR), Microbial electrolysis cell (MEC), Stainless steel (SS)Autores:Hamid A.A., Hasan H.A., Kadier A., Kalil M.S., Mohamed A., Rai P.K., Washington N. LogroñoFuentes:scopusSingle chamber microbial fuel cell (SCMFC) with a cathodic microalgal biofilm: A preliminary assessment of the generation of bioelectricity and biodegradation of real dye textile wastewater
ArticleAbstract: An air exposed single-chamber microbial fuel cell (SCMFC) using microalgal biocathodes was designed.Palabras claves:Biocathode, COD, HEAVY METAL, microalgae, Microbial fuel cells (MFCs), wastewaterAutores:Celso Guillermo Recalde Moreno, Gladys Urquizo, Kadier A., Magdy M. Echeverría, Mario Pérez, Rakhely G., Washington N. LogroñoFuentes:scopusThe microbiology of Power-to-X applications
ReviewAbstract: Power-to-X (P2X) technologies will play a more important role in the conversion of electric power toPalabras claves:green hydrogen, microbial electrochemical technologies, microbial protein, p2g, p2x, power-to-xAutores:De Vrieze J., Harnisch F., Kleinsteuber S., Kretzschmar J., Nikolausz M., Washington N. LogroñoFuentes:scopus