Abstract

The main goal of the carried out tests was to analyze the influence of the surface modification of a substrate by depositing composite ZnO layers by the Atomic Layer Deposition (ALD) method. The samples were subjected to preliminary surface modification consisting of being sandblasted and electropolished. A ZnO layer was applied to the prepared substrates by the ALD method. As a precursor of ZnO, diethylzinc (DEZ) was used, which reacted with water, enabling the deposition of the thin films. The chamber temperature was as follows: T = 100–300 °C. The number of cycles was 500 and 1500. As part of the assessment of the physicochemical properties of the resulting surface layers, the tests of chemical composition of the layer, pitting corrosion, impedance corrosion, adhesion to the metal substrate, morphology surface, and wettability were carried out. On the basis of the obtained research, it was found that a composite ZnO layer deposited onto a substrate previously subjected to the electrochemical polishing process has more favorable physicochemical properties. Moreover, an influence of temperature and the number of cycles of the deposition process on the obtained properties was observed, where the ZnO layer was characterized by more favorable properties at a temperature of 200–300 °C at 1500 cycles of the deposition process.

Highlights

  • Interference with the biological environment of the human organism disturbs its existing state of balance, and triggers defense reactions aimed at restoring full physiological efficiency

  • The ZnO layer deposited on the electropolished substrate had better physicochemical properties compared to the sandblasted substrate

  • More favorable electrochemical properties were observed including pitting corrosion resistance and higher barrier properties of the ZnO layer deposited on the electropolished steel

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Summary

Introduction

Interference with the biological environment of the human organism disturbs its existing state of balance, and triggers defense reactions aimed at restoring full physiological efficiency Bearing this in mind, it seems obvious to care for such physicochemical properties of implants that will cause the least undesirable reactions of rejection of the implanted “foreign matter”. The overall success of the method of treatment of a specific pathology is influenced by a number of closely related factors. In addition to the treatment technique, the knowledge and experience of the medical personnel and the pharmacotherapy, the functional features obtained at the production stage of the medical device are important They consist of, among other things: the correct formation of the structure of the biomaterial, its mechanical properties as well as the physicochemical properties of the surface.

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