| publications-2861 |
Conference proceedings |
2024 |
V.A. Bakhmat, O.O. Soldatkin, V.M. Pyeshkova |
Development of Enzyme Inhibition-based Impedimetric Biosensor System for Determination of Heavy Metal Ions. |
10th International Conference on Sensors Engineering and Electronics Instrumentation Advances (SEIA' 2024) |
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Data Management & Analytics |
Irrigation Systems |
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No abstract available |
958491 |
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| publications-2862 |
Conference proceedings |
2021 |
Viktoriya Pyeshkova, Oleksandr Soldatkin, Taras Velychko, Valentyna Arkhypova, Sergei Dzyadevych, Alexei Soldatkin |
Conductometric Biosensor Based on Butyrylcholinesterase for Determination of Toxic Substances in Water Samples |
"IEEE 11th International Conference on ""Nanomaterials: Applications & Properties"" (NAP-2021)" |
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Data Management & Analytics |
Irrigation Systems |
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No abstract available |
958491 |
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| publications-2863 |
Conference proceedings |
2023 |
V. M. Pyeshkova, V.A. Bakhmat, O. O. Soldatkin, S. Krishnamurthy and S. V. Dzyadevych. |
Impedimetric FIA enzyme inhibition-based biosensor system for determination of heavy metal ions in water |
The Sensors Technologies International Conference ā Sensors 2023 in Albufeira, 25-27 October |
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Data Management & Analytics |
Precipitation & Ecological Systems |
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No abstract available |
958491 |
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| publications-2864 |
Conference proceedings |
2023 |
Bakhmat V. A., Soldatkin O.O, Pyeshkova V.M., Dzyadevych S.V. |
Urease inhibition based biosensor for heavy metal ions determination to control wastewater treatment in textile industry |
International Research And Practice Conference āNanotechnology And Nanomaterialsā, 16ā19 August 2023 |
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Simulation & Modeling |
Precipitation & Ecological Systems |
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No abstract available |
958491 |
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| publications-2865 |
Conference proceedings |
2023 |
Nie, L.M.; Li, P.J.; Zhang, L.; Kestioglu, E.; Kult, H. |
Innovative use of rainwater resources ā A case study of rainwater harvesting for industrial purpose. |
Proceeding of 2023 International Symposium on Sustainable Urban Drainage (SUD 2023). |
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Simulation & Modeling |
Precipitation & Ecological Systems |
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No abstract available |
958491 |
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| publications-2866 |
Non-peer reviewed articles |
2022 |
Lois Damptey,Bright N. Jaato,Camila Silva Ribeiro,Silvia Varagnolo,Nicholas P. Power,Vimalnath Selvaraj,David Dodoo-Arhin,R. Vasant Kumar, Sithara Pavithran Sreenilayam, Dermot Brabazon, Vijay Kumar Thakur, Satheesh Krishnamurthy |
Surface Functionalized MXenes for Wastewater TreatmentāA Comprehensive Review |
Global Challenges |
10.1002/gch2.202100120 |
AI & Machine Learning |
Water Distribution Networks |
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AbstractOver 80% of wastewater worldwide is released into the environment without proper treatment. Whilst environmental pollution continues to intensify due to the increase in the number of polluting industries, conventional techniques employed to clean the environment are poorly effective and are expensive. MXenes are a new class of 2D materials that have received a lot of attention for an extensive range of applications due to their tuneable interlayer spacing and tailorable surface chemistry. Several MXeneābased nanomaterials with remarkable properties have been proposed, synthesized, and used in environmental remediation applications. In this work, a comprehensive review of the stateāofātheāart research progress on the promising potential of surface functionalized MXenes as photocatalysts, adsorbents, and membranes for wastewater treatment is presented. The sources, composition, and effects of wastewater on human health and the environment are displayed. Furthermore, the synthesis, surface functionalization, and characterization techniques of merit used in the study of MXenes are discussed, detailing the effects of a range of factors (e.g., PH, temperature, precursor, etc.) on the synthesis, surface functionalization, and performance of the resulting MXenes. Finally, the limits of MXenes and MXeneābased materials as well as their potential future research directions, especially for wastewater treatment applications are highlighted. |
958491 |
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| publications-2867 |
Conference proceedings |
2022 |
V. M. Pyeshkova, V. A. Bakhmat, O. O. Soldatkin, S. Krishnamurthy, S. V. Dzyadevych and A. P. Soldatkin |
Development of Two Impediometric Biosensors Based on Urease and Glucose Oxidase for Determination of Heavy Metal Ions. |
8th International Conference on Sensors Engineering and Electronics Instrumentation Advances (SEIA' 2022), 21-23 September 2022 |
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Uncategorized |
Uncategorized |
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No abstract available |
958491 |
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| publications-2868 |
Conference proceedings |
2024 |
Veronika Bakhmat, Oleksandr Soldatkin, Sergey Dzyadevych, Viktoriya Pyeshkova |
New impedimetric continuous monitoring biosensor system based on enzyme inhibition for determination of heavy metal ions in water |
International Conference on Bio-Sensing Technology 2024, 12-15 of May |
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IoT & Sensors |
Uncategorized |
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No abstract available |
958491 |
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| publications-2869 |
Conference proceedings |
2024 |
Prasanna Mohan Doss, Marius MĆøller Rokstad, Franz Tscheikner-Gratl |
Leak Localization Using Autoencoders and Shapley Values |
The 3rd International Joint Conference on Water Distribution Systems Analysis & Computing and Control for the Water Industry (WDSA/CCWI 2024) |
10.3390/engproc2024069092 |
AI & Machine Learning |
Water Distribution Networks |
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No abstract available |
869171 |
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| publications-2870 |
Book chapters |
2023 |
Maria JoĆ£o Rosa, Margarida Campinas, Catarina Silva, Elsa Mesquita, Rui M. C. Viegas |
Controlling organic micropollutants in urban (waste) water treatment by activated carbon adsorption and membrane technology |
Clean Technologies Toward the Development of a Sustainable Environment and Future |
10.2166/9781789063783_0141 |
Simulation & Modeling |
Wastewater Treatment Plants |
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Abstract Population growth and aging, as well as water scarcity driven by climate change call for an enhanced control of organic micropollutants and contaminants of emerging concern (CECs) in the urban water cycle, as progressively entailed in the EU and Portuguese legal framework on drinking water, urban wastewater treatment (UWWT) and water reuse. Multibarrier solutions, grounded on current barriersā improvement, prioritizing low-energy, physical barriers (to minimize byproducts, resourcesā use, and carbon footprint) and producing fit-for-purpose water(s) are needed. Activated carbon(AC)-based and hybrid powdered activated carbon/low-pressure membrane processes have proven a huge potential for controlling organic micropollutants in drinking water treatment and water reclamation, but there is room for improving their sustainability and cost-efficiency with process optimization. This chapter aims to introduce the CECsā problem in drinking water and UWWT and comprehensively explain the potential for controlling CECs using AC adsorption and hybrid adsorption/low-pressure membrane processes, based on our last decade's lab-, pilot-, and full-scale results herein summarized and discussed. |
869171 |
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