Evaluation of electrochemical properties of antibacterial ZnO layers deposited to 316LVM steel using atomic layer deposition |
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Authors: | M Basiaga W Walke M Antonowicz M Szindler D Nakonieczny W Kajzer A Dubiel K Matus |
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Affiliation: | 1. Silesian University of Technology, Faculty of Biomedical Engineering / Department of Biomaterials and Medical Device Engineering, Gliwice, Roosevelta 40, 41-800 ZABRZE, REPUBLIC OF, POLAND;2. Silesian University of Technology, Faculty of Mechanical Engineering / Department of Engineering and Biomedical Materials, Konarskiego 18, 44-100 GLIWICE, REPUBLIC OF, POLAND |
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Abstract: | The presence of a biofilm can lead to the disappearance of the surrounding bone tissue and, as a result, disturb the osseointegration process. Unfortunately, both in the case of instability of the implant and long-term bacterial infections, there is often a need for reoperation as well as replacement of the implant, which in turn is associated with huge costs, but most of all discomfort for the patient associated with long-term hospitalization. In order to limit this unfavorable process, the physicochemical properties of the surface layer of implants are indicated. Therefore, the paper proposes applying a layer with antibacterial effect on the surface of 316LVM steel used in bone surgery. As part of the work, the ZnO layer was applied using the atomic layer deposition method with different parameters of the application process (different number of cycles at constant temperature). In the first stage, pitting corrosion resistance tests were carried out using the potentiodynamic method and studies using electrochemical impedance spectroscopy. The surface morphology tests using a scanning electron microscope were also complemented. Obtained results may form the basis for the development of more detailed criteria for the assessment of the final quality of medical devices used in the skeletal system. |
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Keywords: | 316 LVM steel ZnO layers atomic layer deposition (ALD) method electrochemical impedance spectroscopy (EIS) scanning electron microscopy (SEM) potentiodynamic test 316 LVM Stahl ZnO-Schichten Atomlagenabscheidungsverfahren (ALD-Methode) elektrochemischen Impedanzspektroskopie (EIS) Rasterelektronenmikroskopie (REM) potenziodynamischer Test |
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