Daniela Kladeková scite author profile

The numerous theoretical and practical studies of the electrodeposition of nickel and its binary and selected ternary alloys with copper and cobalt over the last 10-15 years are reviewed. The reported mechanisms of the electrodeposition processes and accompanying evolution of hydrogen are considered. The complex influence of different bath compositions, pHs, current densities or potential ranges and temperature on the formation of single or multiple deposition layers are compared. The determination of the structure and morphology of the deposits on different substrates, including solid surfaces and particulate materials, using a range of analytical techniques are reported.

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Voltammetric Investigation of the Oxidation of Iron Powder

Kladeková

Gálová

Pikna

2005

Particulate Science and Technology

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Computational Fluid Dynamic Modeling of a Mixing Stirred Reactor: Three-Dimensional Axisymmetric Models

Kladeková

Oriňáková

Wiemhöfer

et al. 2013

Particulate Science and Technology

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Basic parameters of the electrode process of aluminium deposition from tetrahydrofuran solutions I. Exchange current density

Gálová

Kladeková

1980

Surface Technology

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Influence of solution composition and iron powder characteristics on reduction of 2,4,6-trinitrophenol

Kladeková

Heželová

2008

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Kinetics of the 2,4,6-trinitrophenol reaction with iron powder was investigated voltammetrically. The process was found to be mainly governed both by the iron powder characteristics and by the solution composition. Degradation kinetics was generally represented by a pseudo-first-order rate law. Consecutively, the 2,4,6-trinitrophenol reduction reaction rates for three fractions of iron powder as well as the effect of individual ions presented in the reaction system were evaluated. A correlation between the reaction rate and both the grain size of iron particles and the state of their surface was found. The effect of the reaction system composition was investigated for two types of buffered medium: Britton-Robinson buffer (boric acid, orthophosphoric acid, and glacial acetic acid) and acetate buffer solution (sodium acetate and acetic acid).

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