D. Kwiatkowski scite author profile

Unbiased gold nanoparticles are negatively charged in aqueous solution but not hydrated. Optical spectroscopy of voltage-clamped single gold nanoparticles reveals evidence that anion adsorption starts at positive potentials above the point of zero charge, causing severe but reversible plasmon damping in combination with a spectral red shift exceeding the linear double layer charging effect. Plasmon damping by adsorbate is relevant for the use of nanoparticles in catalysis, in biodiagnostics, and in surface enhanced Raman scattering.

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Influence of variety on selected physical and mechanical properties of wheat

Markowski

Żuk‐Gołaszewska

Kwiatkowski

2013

Industrial Crops and Products

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Design of Experiment on Concrete Mechanical Properties Prediction: A Critical Review

et al. 2021

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Concrete mix design and the determination of concrete performance are not merely engineering studies, but also mathematical and statistical endeavors. The study of concrete mechanical properties involves a myriad of factors, including, but not limited to, the amount of each constituent material and its proportion, the type and dosage of chemical additives, and the inclusion of different waste materials. The number of factors and combinations make it difficult, or outright impossible, to formulate an expression of concrete performance through sheer experimentation. Hence, design of experiment has become a part of studies, involving concrete with material addition or replacement. This paper reviewed common design of experimental methods, implemented by past studies, which looked into the analysis of concrete performance. Several analysis methods were employed to optimize data collection and data analysis, such as analysis of variance (ANOVA), regression, Taguchi method, Response Surface Methodology, and Artificial Neural Network. It can be concluded that the use of statistical analysis is helpful for concrete material research, and all the reviewed designs of experimental methods are helpful in simplifying the work and saving time, while providing accurate prediction of concrete mechanical performance.

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Selected Geometric and Mechanical Properties of Barley (Hordeum Vulgare L.) Grain

Markowski

Majewska

Kwiatkowski

et al. 2010

International Journal of Food Properties

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Signal Propagation in Electromagnetic Media Modelled by the Two-Sided Fractional Derivative

2021

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In this paper, wave propagation is considered in a medium described by a fractional-order model, which is formulated with the use of the two-sided fractional derivative of Ortigueira and Machado. Although the relation of the derivative to causality is clearly specified in its definition, there is no obvious relation between causality of the derivative and causality of the transfer function induced by this derivative. Hence, causality of the system is investigated; its output is an electromagnetic signal propagating in media described by the time-domain two-sided fractional derivative. It is demonstrated that, for the derivative order in the range [1,+∞), the transfer function describing attenuated signal propagation is not causal for any value of the asymmetry parameter of the derivative. On the other hand, it is shown that, for derivative orders in the range (0,1), the transfer function is causal if and only if the asymmetry parameter is equal to certain specific values corresponding to the left-sided Grünwald–Letnikov derivative. The results are illustrated by numerical simulations and analyses. Some comments on the Kramers–Krönig relations for logarithm of the transfer function are presented as well.

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D. Kwiatkowski

Voltage-Induced Adsorbate Damping of Single Gold Nanorod Plasmons in Aqueous Solution

Influence of variety on selected physical and mechanical properties of wheat

Design of Experiment on Concrete Mechanical Properties Prediction: A Critical Review

Selected Geometric and Mechanical Properties of Barley (Hordeum Vulgare L.) Grain

Signal Propagation in Electromagnetic Media Modelled by the Two-Sided Fractional Derivative

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