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Influence of machining duration of 0.8SiO2/ 0.2Al2O3 nanopowder on electrochemical characteristics of lithium power sources

[Display omitted] •The treatment in microbreaker is used to combine the properties of nanosized Al2O3 and SiO2.•It was first established that the result of SVT there is a redistribution of valence Sisd and Alsd electrons in Opπ states.•Changes in electronic structure and structural, morphological fe...

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Bibliographic Details
Published in:Applied surface science 2023-04, Vol.617, p.156420, Article 156420
Main Authors: Yavorskyi, Yu.V., Hrubiak, A.B., Zaulychnyy, Ya.V., Karpets, M.V., Moklyak, V.V., Gun'ko, V.M., Dudka, O.I.
Format: Article
Language:English
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Summary:[Display omitted] •The treatment in microbreaker is used to combine the properties of nanosized Al2O3 and SiO2.•It was first established that the result of SVT there is a redistribution of valence Sisd and Alsd electrons in Opπ states.•Changes in electronic structure and structural, morphological features explains increasing the charge capacity of lithium sources of current at cycling.•The relationship between the distribution of electrons and the electrochemical characteristics of the lithium current sources is established. This paper highlights the relationship between changes in the electrochemical properties vs grinding duration of mixed nanosilica and nanoalumina powders. The dependence of the electrochemical characteristics on structural and morphological changes in the nanocomposite powder has been elucidated. A study of the electrochemical characteristics was performed in galvanostatic and potentiodynamic modes. Scanning electron spectroscopy (SEM), X-ray diffraction analysis (XRD) and ultra-soft X-ray emission spectroscopy (USXES) were used to determine the grinding duration effect on the structural and morphological characteristics. It have been found that as a result of increasing duration processing, the composite is compacted due to O-Opπ-interaction between surface atoms of nanoparticles. From the results of electrochemical studies, it has been found that the changes in specific structural features lead to changes in the discharge capacities of lithium power sources. Namely, an increase in grinding time to 5 min leads to increase in charge capacity of first cycle and capacity after 50 cycles. However, with increasing grinding duration to 10, 15 and 20 min is accompanied by a decrease in the charge state of oxygen, specific surface area and increasing of coherent region scattering that lead to a decrease in the discharge capacity.
ISSN:0169-4332
1873-5584
DOI:10.1016/j.apsusc.2023.156420