Partner: Magdalena Warczak |
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Ostatnie publikacje
1. | Nwaji N., Fikadu B.♦, Osial M., Gicha B.B.♦, Warczak M.♦, Fan H.♦, Lee J.♦, Giersig M., Atomically dispersed ruthenium in transition metal double layered hydroxide as a bifunctional catalyst for overall water splitting, RENEWABLE ENERGY, ISSN: 0960-1481, DOI: 10.1016/j.renene.2024.121307, Vol.235, pp.1-10, 2024 Streszczenie: Efficient and sustainable energy conversion depends on the rational design of single-atom catalysts. The control of the active sites at the atomic level is vital for electrocatalytic materials in alkaline and acidic electrolytes. Moreover, fabrication of effective catalysts with a well-defined surface structure results in an in-depth understanding of the catalytic mechanism. Herein, a single atom ruthenium dispersed in nickel-cobalt layered hydroxide (Ru-NiCo LDH) is reported. Through the precise controlling of the atomic dispersion and local coordination environment, Ru-NiCo LDH//Ru-NiCo LDH provides an ultra-low overpotential of 1.45 mV at 10 mA cm−2 for the overall water splitting, which surpasses that of the state-of-the-art Pt/C/RuO2 redox couple. Density functional theory calculations show that Ru-NiCo LDH optimizes hydrogen evolution intermediate adsorption energies and promotes O-O coupling at a Ru-O active site for oxygen evolution, while Ni serves as the water dissociation site for effective water splitting. As a potential model, Ru-NiCo LDH shows enhanced water splitting performance with potential for the development of promising water-alkaline catalysts. Afiliacje autorów:
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2. | Warczak M.♦, Osial M., Urbańska W.♦, Sławskowska N.♦, Dąbrowska A.♦, Bonarowska M.♦, Pisarek M.♦, Monikayev R.♦, Giersig M., Opallo M.♦, Insights Into the High Catalytic Activity of Li-ion Battery Waste Toward Oxygen Reduction to Hydrogen Peroxide, ChemElectroChem, ISSN: 2196-0216, DOI: 10.1002/celc.202400248, Vol.e202400248, pp.1-10, 2024 | 100p. | ||||||||||||||||||||||||||||||||||
3. | Warczak M.♦, Osial M., Urbańska W.♦, Sławkowska N.♦, Dąbrowska A.♦, Bonarowska M.♦, Pisarek M.♦, Minikavey R.♦, Giersig M., Opałło M.♦, Front Cover: Insights into the High Catalytic Activity of Li-Ion Battery Waste toward Oxygen Reduction to Hydrogen Peroxide, ChemElectroChem, ISSN: 2196-0216, DOI: 10.1002/celc.202481501, Vol.15, pp.1-1, 2024 | 100p. | ||||||||||||||||||||||||||||||||||
4. | Abramowicz M.♦, Osial M., Urbańska W.♦, Walicki M.♦, Wilczewski S., Pręgowska A., Skórczewska K.♦, Jenczyk P., Warczak M.♦, Pisarek M.♦, Giersig M., Upcycling of Acid-Leaching Solutions from Li-Ion Battery Waste Treatment through the Facile Synthesis of Magnetorheological Fluid, Molecules, ISSN: 1420-3049, DOI: 10.3390/molecules28062558, Vol.28, No.6, pp.2558-1-2558-16, 2023 Streszczenie: The rapidly growing production and usage of lithium-ion batteries (LIBs) dramatically raises the number of harmful wastes. Consequently, the LIBs waste management processes, taking into account reliability, efficiency, and sustainability criteria, became a hot issue in the context of environmental protection as well as the scarcity of metal resources. In this paper, we propose for the first time a functional material—a magnetorheological fluid (MRF) from the LIBs-based liquid waste containing heavy metal ions. At first, the spent battery waste powder was treated with acid-leaching, where the post-treatment acid-leaching solution (ALS) contained heavy metal ions including cobalt. Then, ALS was used during wet co-precipitation to obtain cobalt-doped superparamagnetic iron oxide nanoparticles (SPIONs) and as an effect, the harmful liquid waste was purified from cobalt. The obtained nanoparticles were characterized with SEM, TEM, XPS, and magnetometry. Subsequently, superparamagnetic nanoparticles sized 15 nm average in diameter and magnetization saturation of about 91 emu g−1 doped with Co were used to prepare the MRF that increases the viscosity by about 300% in the presence of the 100 mT magnetic fields. We propose a facile and cost-effective way to utilize harmful ALS waste and use them in the preparation of superparamagnetic particles to be used in the magnetorheological fluid. This work describes for the first time the second life of the battery waste in the MRF and a facile way to remove the harmful ingredients from the solutions obtained after the acid leaching of LIBs as an effective end-of-life option for hydrometallurgical waste utilization. Słowa kluczowe: environment protection SPION, battery waste, toxic waste management, direct recycling, sustainability, circular economy, critical raw materials Afiliacje autorów:
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5. | Pietrzyk P., Borowska E.♦, Hejduk P.♦, Camargo Cury B.♦, Warczak M.♦, Nguyen Thu P.♦, Pregowska A., Gniadek M.♦, Szczytko J.♦, Wilczewski S.♦, Osial M., Green composites based on volcanic red algae Cyanidiales, cellulose, and coffee waste biomass modified with magnetic nanoparticles for the removal of methylene blue, Environmental Science and Pollution Research, ISSN: 1614-7499, DOI: 10.1007/s11356-023-26425-3, pp.1-15, 2023 | 100p. | ||||||||||||||||||||||||||||||||||
6. | Osial M., Pregowska A., Warczak M.♦, Giersig M., Magnetorheological fluids: A concise review of composition, physicochemical properties, and models, JOURNAL OF INTELLIGENT MATERIAL SYSTEMS AND STRUCTURES, ISSN: 1045-389X, DOI: 10.1177/1045389X231157357, pp.1-21, 2023 Słowa kluczowe: Magnetorheological Fluids (MRF), rheology, smart materials, intelligent fluid, functional materials Afiliacje autorów:
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7. | Warczak M.♦, Osial M., Urbańska W.♦, Pisarek M.♦, Nogala W.♦, Opałło M.♦, Hydrogen peroxide generation catalyzed by battery waste material, Electrochemistry Communications, ISSN: 1388-2481, DOI: 10.1016/j.elecom.2022.107239, Vol.136, pp.107239-1-6, 2022 Streszczenie: Lithium-ion battery (LiB) waste powder is a valuable source of various materials, including carbon and metals. Although this material exhibits electrical conductivity, nanostructured morphology, and may contain metal oxides, it has not been used as an electrocatalyst. Here, we demonstrated the application of LiB waste powder as a catalyst for electrochemical H2O2 generation. The powder was both immobilized on a glassy carbon (GC) electrode and assembled at a liquid–liquid interface formed by decamethylferrocene (DMFc) solution in trifluorotoluene and aqueous perchloric acid in the presence of oxygen. The electrochemistry was studied by cyclic voltammetry and also with a rotating disk electrode (RDE), and a 2-electron ORR pathway was confirmed. H2O2 generation at the liquid–liquid interface and oxidation of DMFc were detected by colorimetry, UV–vis spectroscopy and scanning electrochemical microscopy (SECM). The use of LiB waste powder reduces the ORR onset potential by ca. 0.3 V compared to an unmodified GC. When assembled at a liquid–liquid interface the waste powder increases the efficiency of H2O2 generation by ca. 20 times. Słowa kluczowe: hydrogen peroxide, lithium-ion battery waste, oxygen reduction, scanning electrochemical microscopy (SECM), liquid–liquid interface Afiliacje autorów:
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8. | Dąbrowska A.♦, Urbańska W.♦, Warczak M.♦, Osial M., Battery Powder as a Source of Novel Graphene Nanocarbons, PHYSICA STATUS SOLIDI B-BASIC SOLID STATE PHYSICS, ISSN: 0370-1972, DOI: 10.1002/pssb.202100588, pp.2100588-1-9, 2022 Streszczenie: Lithium-ion batteries (LIBs) waste is classified as a dangerous one. Fortunately, LIBs can be recycled and are already a valuable source of metals. This work is focused on the properties of the spent LIBs powder, which is a postproduct of the proposed organic leaching process and is presented as a source of nanocarbons with a unique structure. Furthermore, attention is paid to revealing the properties of the carbon component that can find a second life in other applications like photocatalysis or sorbents. Raman spectroscopy is used for the characterization of graphitic carbon. Scanning electron microscopy images are numerically quantitatively analyzed to provide additional parameters (for instance, the total length of edges) about the structure of materials, and X-ray diffraction (XRD) and energy-dispersive X-ray spectroscopy (EDS) further check their composition. Afiliacje autorów:
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9. | Warczak M.♦, Pręgowska A., Masztalerz K.♦, Osial M., M line Memory and Memories, United Academics Magazine, ISSN: 2212-5728, pp.1-7, 2022 Słowa kluczowe: memory,memories,brain Afiliacje autorów:
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10. | Warczak M.♦, Gniadek M.♦, Hermanowski K.♦, Osial M., Well-defined polyindole–Au NPs nanobrush as a platform for electrochemical oxidation of ethanol, Pure and Applied Chemistry, ISSN: 1365-3075, DOI: 10.1515/pac-2020-1101, Vol.93, No.4, pp.497-507, 2021 Słowa kluczowe: ChemRAWN,electrocatalysis,electrochemical oxidation,ethanol,gold nanoparticles,nanobrush,nanowires,polyindole Afiliacje autorów:
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11. | Warczak M.♦, Osial M.♦, Berggren M.♦, Głowacki Eric D.♦, Electrogeneration of hydrogen peroxide via oxygen reduction on polyindole films, Journal of The Electrochemical Society, ISSN: 0013-4651, DOI: 10.1149/1945-7111/ab88bb, Vol.167, No.8, pp.1-6, 2020 | 100p. | ||||||||||||||||||||||||||||||||||
12. | Osial M.♦, Warczak M.♦, Kulesza P.♦, Krysiński P.♦, Gniadek M.♦, Hybrid polyindole‑gold nanobrush for electrochemical oxidation of ascorbic acid, Journal of Electroanalytical Chemistry, ISSN: 1572-6657, DOI: 10.1016/j.jelechem.2020.114664, Vol.877, No.114664, pp.1-10, 2020 Słowa kluczowe: Electrocatalysis, Ascorbic acid, Polyindole, Gold nanoparticles, Nanobrush, Hard-template synthesis Afiliacje autorów:
| 70p. |
Abstrakty konferencyjne
1. | Pręgowska A., Warczak M.♦, Osial M.♦, Superparamagnetyczne nanocząstkina bazie tlenku żelaza domieszkowane terbem i modyfikowane aklarubicynądo magnetycznej hipertermii, XIII Interdyscyplinarna Konferencja Naukowa TYGIEL 2021 „Interdyscyplinarność kluczem do rozwoju”, 2021-03-25/03-28, Lublin (PL), pp.296, 2021 |
Patenty
Numer/data zgłoszenia patentowego Ogłoszenie o zgłoszeniu patentowym | Twórca / twórcy Tytuł Kraj i Nazwa uprawnionego z patentu | Numer patentu Ogłoszenie o udzieleniu patentu | |
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441075 2022-04-30 - - | Osial M., Abramowicz M.♦, Urbańska W.♦, Warczak M.♦, Pręgowska A.Ciecz magnetoreologiczna na bazie tlenków metali oraz sposób jej otrzymywaniaPL, Uniwersytet Warszawski, Politechnika Wrocławska, Instytut Chemii Fizycznej PAN, Instytut Podstawowych Problemów Techniki PAN | - - - |