Publications

Rózsenberszki, T. et al., 2025. Carboxylic Acid Production from Kitchen Waste and Sewage Sludge Digestate Inoculation via Acidogenic Fermentation at High Organic Load. WASTE AND BIOMASS VALORIZATION, 2025.

Koók, L. et al., 2025. Comparative assessment of microbial desalination cells and microbial electrolysis desalination cells: Towards improved salt removal kinetics and efficiency. DESALINATION, 598, p.118406.

Bakonyi, P. et al., 2024. Hidrogén szeparációja membránokkal. In Gázelegyek membrános elválasztása.

Visnyei, M. et al., 2024. Mitigated CH4 release of anaerobic waste fermentation is enabled through effluent degassing system equipped with a polydimethylsiloxane membrane contactor. CHEMICAL ENGINEERING JOURNAL ADVANCES, 18.

Szakács, S. et al., 2024. Biofouling-focused assessment of a novel, cellulose-based ionogel membrane applied in a microbial fuel cell. BIORESOURCE TECHNOLOGY REPORTS, 26.

Ortega-Martínez, E. et al., 2024. A review of autotrophic denitrification for groundwater remediation: a special focus on bioelectrochemical reactors. JOURNAL OF ENVIRONMENTAL CHEMICAL ENGINEERING, 12(1).

Koók, L., Kovács, S., et al., 2023. Bioetanol előállítása elektródpotenciál-vezérelt fermentációs rendszerben. MEMBRÁNTECHNIKA ÉS IPARI BIOTECHNOLÓGIA, 14(2), pp.4–10.

Koók, L., Nagy, K.B., et al., 2023. Simultaneous Urea and Phosphate Recovery from Synthetic Urine by Electrochemical Stabilization. MEMBRANES (BASEL), 13(8).

Rózsenberszki, T. et al., 2023. Bipolar membrane electrodialysis integration into the biotechnological production of itaconic acid: a proof-of-concept study. CHEMICAL ENGINEERING RESEARCH AND DESIGN, 190, pp.187–197.

Bakonyi, P. et al., 2023. CO2-refinery through microbial electrosynthesis (MES): A concise review on design, operation, biocatalysts and perspectives. JOURNAL OF CO2 UTILIZATION, 67.

Koók, L., Bakonyi, P., et al., 2022. Mikrobiális elektrokémiai rendszerek fejlesztése új típusú polimer ioncserélő membránok alkalmazásával. In 50. Műszaki Kémiai Napok Jubileumi Konferencia. pp. 44–44.

Szakács, S. et al., 2022. Studying microbial fuel cells equipped with heterogeneous ion exchange membranes: Electrochemical performance and microbial community assessment of anodic and membrane-surface biofilms. BIORESOURCE TECHNOLOGY, 360.

Koók, L., Rosa, L.F.M., et al., 2022. Functional stability of novel homogeneous and heterogeneous cation exchange membranes for abiotic and microbial electrochemical technologies. JOURNAL OF MEMBRANE SCIENCE, 658.

Koók, L., 2022. Ionos folyadék alapú membránok szerepe bioelektrokémiai rendszerek hatékonyságnövelésében.

Koók, L. & Bakonyi, P., 2021. Új típusú szulfometilált PSEBS blendek alkalmazási lehetőségei szeparátorként bioelektrokémiai rendszerekben. In Pannon Egyetem, Mérnöki Kari Tudományos Konferencia 2021. szeptember 15. pp. 17–17.

Rózsenberszki, T., Komáromy, P., et al., 2021. Biológiai hulladékkezelés támogatása fermentáció-elektrodialízis integrált rendszer fejlesztésével. MEMBRÁNTECHNIKA ÉS IPARI BIOTECHNOLÓGIA, 12(4), pp.38–42.

Bélafiné Bakó, K. et al., 2021. Bioelektrokémiai rendszerek és a szénsavanhidráz enzim. MEMBRÁNTECHNIKA ÉS IPARI BIOTECHNOLÓGIA, 12(3), pp.30–33.

Szakács, S. et al., 2021b. Examination of new ion exchange membranes in bioelectrochemical system and other various electrochemical methods. In 10. Jubileumi Interdiszciplináris Doktorandusz Konferencia. pp. 288–288.

Szakács, S. et al., 2021a. A membrán anyagának szerepe a bioelektrokémiai rendszerekben. In PhD hallgatók anyagtudományi napja XXI. pp. 9–9.

Koók, L., Bakonyi, P., et al., 2021. A membránfejlesztés jelentősége bioelektrokémiai rendszerekben – rövid áttekintés. MAGYAR KÉMIAI FOLYÓIRAT - KÉMIAI KÖZLEMÉNYEK (1997-), 127(3–4), pp.132–136.

Rózsenberszki, T., Koók, L., et al., 2021. Comparative Study on Anaerobic Degradation Processes of Pressed Liquid Fraction of Organic Solid Waste. HUNGARIAN JOURNAL OF INDUSTRY AND CHEMISTRY, 49(1), pp.31–35.

Koók, L. et al., 2021. Investigating the Proton and Ion Transfer Properties of Supported Ionic Liquid Membranes Prepared for Bioelectrochemical Applications Using Hydrophobic Imidazolium-Type Ionic Liquids. MEMBRANES (BASEL), 11(5).

Koók, L. et al., 2021. Efficiency, operational stability and biofouling of novel sulfomethylated polystyrene-block-poly(ethylene-ran-butylene)-block-polystyrene cation exchange membrane in microbial fuel cells. BIORESOURCE TECHNOLOGY, 333.

Koók, L., Nemestóthy, N., et al., 2021a. The influential role of external electrical load in microbial fuel cells and related improvement strategies: A review. BIOELECTROCHEMISTRY, 140.

Koók, L., Nemestóthy, N., et al., 2021b. Treatment of dark fermentative H2 production effluents by microbial fuel cells: A tutorial review on promising operational strategies and practices. INTERNATIONAL JOURNAL OF HYDROGEN ENERGY, 46(7), pp.5556–5569.

Cardeña, R. et al., 2021. Evaluation and ranking of polymeric ion exchange membranes used in microbial electrolysis cells for biohydrogen production. BIORESOURCE TECHNOLOGY, 319.

Koók, L., Dörgő, G., et al., 2020. Directions of membrane separator development for microbial fuel cells: A retrospective analysis using frequent itemset mining and descriptive statistical approach. JOURNAL OF POWER SOURCES, 478.

Koók, L., Nemestóthy, N., et al., 2020. Investigating the specific role of external load on the performance versus stability trade-off in microbial fuel cells. BIORESOURCE TECHNOLOGY, 309.

Bakonyi, P. et al., 2020. Development and Application of Supported Ionic Liquid Membranes in Microbial Fuel Cell Technology: A Concise Overview. MEMBRANES (BASEL), 10(1).

Cardeña, R. et al., 2020. Feasibility of quaternary ammonium and 1,4-diazabicyclo[2.2.2]octane-functionalized anion-exchange membranes for biohydrogen production in microbial electrolysis cells. BIOELECTROCHEMISTRY, 133.

Koók, L. et al., 2020. Electrochemical and microbiological insights into the use of 1,4-diazabicyclo[2.2.2]octane-functionalized anion exchange membrane in microbial fuel cell: A benchmarking study with Nafion. SEPARATION AND PURIFICATION TECHNOLOGY, 237.

Bakonyi, P. et al., 2020. Possibilities for the biologically-assisted utilization of CO2-rich gaseous waste streams generated during membrane technological separation of biohydrogen. JOURNAL OF CO2 UTILIZATION, 36, pp.231–243.

L, K. et al., 2019. Case studies on the application of new ion exchange membrane materials for bioelectrochemistry.

Bakonyi, P. et al., 2019. Leachate valorization in anaerobic biosystems: Towards the realization of waste-to-energy concept via biohydrogen, biogas and bioelectrochemical processes. INTERNATIONAL JOURNAL OF HYDROGEN ENERGY, 44(32), pp.17278–17296.

Koók, L., Quéméner, E.D.-L., et al., 2019. Behavior of two-chamber microbial electrochemical systems started-up with different ion-exchange membrane separators. BIORESOURCE TECHNOLOGY, 278, pp.279–286.

Koók, L. & Bélafiné, B.K., 2019. A mikrobiális elektrokémiai rendszerek legújabb perspektívái – az elektrontól az iparig. MAGYAR KÉMIKUSOK LAPJA, 74(2), pp.53–56.

Koók, L. et al., 2019. Biofouling of membranes in microbial electrochemical technologies: Causes, characterization methods and mitigation strategies. BIORESOURCE TECHNOLOGY, 279, pp.327–338.

Koók, L., Kaufer, B., et al., 2019. Supported ionic liquid membrane based on [bmim][PF6] can be a promising separator to replace Nafion in microbial fuel cells and improve energy recovery: A comparative process evaluation. JOURNAL OF MEMBRANE SCIENCE, 570–571, pp.215–225.

Rózsenberszki, T. et al., 2018. Kombinált bioelektrokémiai és anaerob fermentációs technikák alkalmazási lehetősége a települési szilárd hulladék kezelésében. MEMBRÁNTECHNIKA ÉS IPARI BIOTECHNOLÓGIA, 9(2), pp.22–37.

Koók, L., Bakonyi, P., Tóth, G., et al., 2018. The Interrelation Between Ion-Exchange Membranes and the Efficiency of Microbial Electrochemical Systems.

Koók, L., Kaufer, B., Rózsenberszki, T., Bakonyi, P., et al., 2018. Study on the effect of supported [bmim][PF6] ionic liquid and Nafion membranes used in microbial electrochemical cells. In MELPRO Book of Abstracts. p. 208.

Koók, L., Bakonyi, P., Rózsenberszki, T., et al., 2018. Study on microbial electrochemical systems operating with fabricated ion exchange membranes as competitive separators to Nafion. In EU-ISMET 2018 Book of Abstracts. p. 107.

Nemestóthy, N. et al., 2018. Assessment via the modified gompertz-model reveals new insights concerning the effects of ionic liquids on biohydrogen production. INTERNATIONAL JOURNAL OF HYDROGEN ENERGY, 43(41), pp.18918–18924.

Bakonyi, P., Koók, L., Kumar, G., et al., 2018. Architectural engineering of bioelectrochemical systems from the perspective of polymeric membrane separators: A comprehensive update on recent progress and future prospects. JOURNAL OF MEMBRANE SCIENCE, 564, pp.508–522.

Koók, L., Kanyó, N., Dévényi, F., Bakonyi, P., et al., 2018. Improvement of waste-fed bioelectrochemical system performance by selected electro-active microbes: Process evaluation and a kinetic study. BIOCHEMICAL ENGINEERING JOURNAL, 137, pp.100–107.

Bakonyi, P., Koók, L., Keller, E., et al., 2018. Development of bioelectrochemical systems using various biogas fermenter effluents as inocula and municipal waste liquor as adapting substrate. BIORESOURCE TECHNOLOGY, 259, pp.75–82.

Bakonyi, P., Kumar, G., et al., 2018. Microbial electrohydrogenesis linked to dark fermentation as integrated application for enhanced biohydrogen production: A review on process characteristics, experiences and lessons. BIORESOURCE TECHNOLOGY, 251, pp.381–389.

Takács, P. et al., 2017. Mikrobiális elektrohidrogenezis cella vizsgálata. MEMBRÁNTECHNIKA ÉS IPARI BIOTECHNOLÓGIA, 8(4), pp.54–61.

Keller, E. et al., 2017. Algák a bioelektrokémiai rendszerekben. MEMBRÁNTECHNIKA ÉS IPARI BIOTECHNOLÓGIA, 8(2), pp.22–28.

Koók, L. & Nemestóthy, N., 2017. 8.: Bioelektrokémiai rendszerek és méréstechnikájuk. In Mikrobiális üzemanyagcellák. pp. 125–135.

Rózsenberszki, T. et al., 2017. Mikrobiális üzemanyagcellák szerepe a települési szilárd hulladék kezelésénél. In Mikrobiális üzemanyagcellák. pp. 85–95.

Koók, L. & Bélafiné, B.K., 2017. 4. : Az elektrontranszfer mechanizmusai. In Mikrobiális üzemanyagcellák. pp. 71–84.

L, K. et al., 2017. On the relationship of energy generation and ionic liquid-based membrane properties in biocatalytic electrochemical systems. In General Meeting of the International Society of Microbial Electrochemistry and Technology. p. 161.

Koók, L., Nemestóthy, N., Bakonyi, P., Göllei, A., et al., 2017. On the efficiency of dual-chamber biocatalytic electrochemical cells applying membrane separators prepared with imidazolium-type ionic liquids containing [NTf2]− and [PF6]− anions. CHEMICAL ENGINEERING JOURNAL, 324, pp.296–302.

Saratale, R. et al., 2017. Bioelectrochemical systems using microalgae – A concise research update. CHEMOSPHERE, 177, pp.35–43.

Koók, L., Nemestóthy, N., Bakonyi, P., Zhen, G., et al., 2017. Performance evaluation of microbial electrochemical systems operated with Nafion and supported ionic liquid membranes. CHEMOSPHERE, 175, pp.350–355.

Nemestóthy, N. et al., 2017. Enzyme kinetics approach to assess biocatalyst inhibition and deactivation caused by [bmim][Cl] ionic liquid during cellulose hydrolysis. BIORESOURCE TECHNOLOGY, 229, pp.190–195.

Rózsenberszki, T. et al., 2017. Municipal waste liquor treatment via bioelectrochemical and fermentation (H2 + CH4) processes: Assessment of various technological sequences. CHEMOSPHERE, 171, pp.692–701.

Kumar, G. et al., 2017. Microbial electrochemical systems for sustainable biohydrogen production: Surveying the experiences from a start-up viewpoint. RENEWABLE & SUSTAINABLE ENERGY REVIEWS, 70, pp.589–597.

Nemestóthy, N. et al., 2016. Eljárás ipari hulladékgázok szeparációjára ciklikusan mozgó dugattyús rendszerben újszerű szelektív rétegek segítségével = PROCESS FOR SEPARATING WASTE GASES WITH CYCLIC MOVING PISTON SYSTEM WITH NOVEL SELECTIVE LAYERS.

Nemestóthy, N. et al., 2016. A [bmim][Cl] ionos folyadék hatása a Cellic® Htec2 celluláz enzimkészítményre. MEMBRÁNTECHNIKA ÉS IPARI BIOTECHNOLÓGIA, 7(3–4), pp.46–55.

L, K., T, R., et al., 2016. On the effect of anodic biofilm enrichment applying selected electro-active microbes in microbial fuel cells.

Zhen, G. et al., 2016. Recovery of biohydrogen in a single-chamber microbial electrohydrogenesis cell using liquid fraction of pressed municipal solid waste (LPW) as substrate. INTERNATIONAL JOURNAL OF HYDROGEN ENERGY, 41(40), pp.17896–17906.

Koók, L., Rózsenberszki, T., Nemestóthy, N., Bakonyi, P., et al., 2016. THE POLARIZATION BEHAVIOUR OF THE ANODE IN BIOELECTROCHEMICAL SYSTEMS. In PERMEA - Internatinal Conference on Membrane Processes. pp. 241–241.

L, K., A, H., et al., 2016. APPLICATION OF SUPPORTED IONIC LIQUID MEMBRANES IN MICROBIAL FUEL CELLS. In PERMEA - Internatinal Conference on Membrane Processes.

Rózsenberszki, T. et al., 2016. COMBINED ANAEROBIC BIODEGRADATION OF A SPECIAL WASTEWATER FROM A MUNICIPAL SOLID WASTE TREATMENT PLANT. In PERMEA - Internatinal Conference on Membrane Processes. pp. 87–87.

Koók, L., Rózsenberszki, T., Nemestóthy, N., Bélafi-Bakó, K., et al., 2016. Bioelectrochemical treatment of municipal waste liquor in microbial fuel cells for energy valorization. JOURNAL OF CLEANER PRODUCTION, 112(5), pp.4406–4412.

Koók, L. et al., 2015. Nafion és PVDF membránnal működő mikrobiális üzemanyagcellák összehasonlítása szervesanyag-tartalmú hulladékok energetikai hasznosítása során. In Műszaki Kémiai Napok 2015: Chemical Engineering Days 2015. pp. 33–33.

Rózsenberszki, T. et al., 2015. Comparison of anaerobic degradation processes for bioenergy generation from liquid fraction of pressed solid waste. WASTE AND BIOMASS VALORIZATION, 6(4), pp.465–473.

Koók, L. et al., 2014. Process simulation of integrated biohydrogen production: hydrogen recovery by membrane separation. AGRÁRINFORMATIKA / JOURNAL OF AGRICULTURAL INFORMATICS, 5(2), pp.45–54.