Graphene-Oxide and Hydrogel Coated FBG-Based pH Sensor for Biomedical Applications
Journal Article
Binetti, L., Stankiewicz, A., & Alwis, L. S. M. (2018)
Graphene-Oxide and Hydrogel Coated FBG-Based pH Sensor for Biomedical Applications. Proceedings, 2(13), 789. https://doi.org/10.3390/proceedings2130789
A hydrogel coated fibre grating-based pH sensor for biomedical applications has been realised, where Graphene Oxide (GO) had been used to enhance the bonding between the coati...
Tribological and Anticorrosion Performance of Electroplated Zinc Based Nanocomposite Coatings
Journal Article
Klekotka, M., Zielińska, K., Stankiewicz, A., & Kuciej, M. (2020)
Tribological and Anticorrosion Performance of Electroplated Zinc Based Nanocomposite Coatings. Coatings, 10(6), https://doi.org/10.3390/coatings10060594
This paper presents the results of corrosion and tribological analysis of pure and nanocomposite zinc coatings. Coatings were electroplated using commercially available produc...
Gelatin microgels as a potential corrosion inhibitor carriers for self-healing coatings: Preparation and codeposition: Gelatin microgels as carriers for self-healing coatings
Journal Article
Stankiewicz, A., Jagoda, Z., Zielińska, K., & Szczygieł, I. (2015)
Gelatin microgels as a potential corrosion inhibitor carriers for self-healing coatings: Preparation and codeposition: Gelatin microgels as carriers for self-healing coatings. Materials and corrosion : with International Corrosion abstracts = Werkstoffe und Korrosion : Organ der Arbeitsgemeinschaft Korrosion und der Dechema-Beratungsstelle für Werkstoff-Fragen, 66(12), 1391-1396. https://doi.org/10.1002/maco.201508436
Co-deposition of a coating with capsules containing a corrosion inhibitor is one of the methods to protect the material surface against corrosion. This generation of coatings ...
Corrosion resistance of Ni-P\CePO 4 coatings obtained from sol solutions : Corrosion resistance of Ni-P\CePO 4 coatings
Journal Article
Winiarski, J., Gałuszka, M., & Stankiewicz, A. (2015)
Corrosion resistance of Ni-P\CePO 4 coatings obtained from sol solutions : Corrosion resistance of Ni-P\CePO 4 coatings. Materials and corrosion : with International Corrosion abstracts = Werkstoffe und Korrosion : Organ der Arbeitsgemeinschaft Korrosion und der Dechema-Beratungsstelle für Werkstoff-Fragen, 66(6), 557-561. https://doi.org/10.1002/maco.201307570
Combined sol–gel and electroless plating techniques were used to obtain nickel-matrix composite coatings. Scanning electron microscopy (SEM) was used to examine the surface mo...
Self-healing coatings in anti-corrosion applications
Journal Article
Stankiewicz, A., Szczygieł, I., & Szczygieł, B. (2013)
Self-healing coatings in anti-corrosion applications. Journal of Materials Science, 48(23), 8041-8051. https://doi.org/10.1007/s10853-013-7616-y
Nonmetallic (based on polymers or oxides) and metallic protective coatings are used to protect metal products against the harmful action of the corrosion environment. In recen...
Summary of Existing Models of the Ni-P Coating Electroless Deposition Process: MODELS OF THE NI-P COATING ELECTROLESS DEPOSITION PROCESS
Journal Article
Stankiewicz, A., Szczygieł, I., & Szczygieł, B. (2013)
Summary of Existing Models of the Ni-P Coating Electroless Deposition Process: MODELS OF THE NI-P COATING ELECTROLESS DEPOSITION PROCESS. International Journal of Chemical Kinetics, 45(11), 755-762. https://doi.org/10.1002/kin.20810
Electroless nickel-phosphorous plating is a technique often employed in preparation of protective, decorative, and functional coatings. Several feasible mechanisms are discuss...
Surface functionalisation by the introduction of self-healing properties into electroless Ni-P coatings
Journal Article
Stankiewicz, A., Kefallinou, Z., Mordarski, G., Jagoda, Z., & Spencer, B. (2019)
Surface functionalisation by the introduction of self-healing properties into electroless Ni-P coatings. Electrochimica Acta, 297, 427-434. https://doi.org/10.1016/j.electacta.2018.12.026
Ni-P∖alginate microgels coatings, as potential metallic protective coatings with self-healing properties, were deposited by the electroless method. The alginate microgels cont...
Machine Vision System for Corrosion Detection as an Additional Tool beside EIS for Evaluation of Protective Properties of Electrolessly Deposited Ni-P Coatings
Journal Article
Stankiewicz, A., Stankiewicz, M., Winiarski, J., Szczygieł, I., & Szczygieł, B. (2015)
Machine Vision System for Corrosion Detection as an Additional Tool beside EIS for Evaluation of Protective Properties of Electrolessly Deposited Ni-P Coatings. Solid State Phenomena, 227, 557-560. https://doi.org/10.4028/www.scientific.net/ssp.227.557
The electroless deposition technique was used to obtain Ni-P coatings with various phosphorus content. Machine vision method was applied as a tool for the analysis and interpr...
The effect of suspension bath composition on the composition, topography and structure of electrolessly deposited composite four-component Ni–W–P–ZrO2 coatings
Journal Article
Szczygieł, B., & Turkiewicz, A. (2008)
The effect of suspension bath composition on the composition, topography and structure of electrolessly deposited composite four-component Ni–W–P–ZrO2 coatings. Applied Surface Science, 254(22), 7410-7416. https://doi.org/10.1016/j.apsusc.2008.05.342
Composite four-component Ni–W–P–ZrO2 coatings were electrolessly deposited from a bath with different concentrations of aminoacetic acid (glycine—the complexing agent), sodium...
Electroless deposition of Ni–P–nano-ZrO2 composite coatings in the presence of various types of surfactants
Journal Article
Zielińska, K., Stankiewicz, A., & Szczygieł, I. (2012)
Electroless deposition of Ni–P–nano-ZrO2 composite coatings in the presence of various types of surfactants. Journal of Colloid and Interface Science, 377(1), 362-367. https://doi.org/10.1016/j.jcis.2012.03.049
Ni–P–nano-ZrO2 coatings were produced using the electroless deposition technique. To prevent agglomeration of zirconia nanoparticles in the plating bath, various surfactant ad...