Electrochemical behaviour and surface characterisation of Zr exposed to an SBF solution containing glycine, in view of dental implant applications
Zr and Ti alloys are extensively used in the biomedical field owing to their optimal mechanical properties and excellent corrosion resistance. Fully ceramic implants based on zirconia are appealing with respect to the traditional Ti-based metallic ones for several reasons, such as: (i) improved aest...
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| Published in | Journal of materials science. Materials in medicine Vol. 22; no. 1; pp. 193 - 200 |
|---|---|
| Main Authors | , , |
| Format | Journal Article |
| Language | English |
| Published |
Boston
Springer US
2011
Springer Springer Nature B.V |
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| Online Access | Get full text |
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| Abstract | Zr and Ti alloys are extensively used in the biomedical field owing to their optimal mechanical properties and excellent corrosion resistance. Fully ceramic implants based on zirconia are appealing with respect to the traditional Ti-based metallic ones for several reasons, such as: (i) improved aesthetic impact, (ii) better biocompatibility and (iii) better osteointegration. Nevertheless, fully ceramic implants exhibit serious mechanical and clinical drawbacks, chiefly brittleness and impossibility of post-implant position adjustments. In this paper we propose the novel approach of using a metal-based system, consisting of metallic Zr, for the bulk of the implant and an electrochemically grown zirconia coating, ensuring contact of the ceramic with the biological environment and isolation from the underlying metal. This solution combines the outstanding mechanical properties of the metal in the bulk with the optimal biochemical properties exclusively where they are needed: at the surface. The present paper—focussed on the electrochemical behaviour of the proposed system at the implant-wound and implant-growing bone interface—reports a time-dependent electrochemical corrosion study of zirconia-coated zirconium, performed in the following ways: (i) exposure and measurements in SBF (simulating the inorganic part of human plasma, relevant to wound chemistry), (ii) exposure and measurements in SBF with added glycine (the simplest, ubiquitous amino acid found in proteins), (iii) exposure in SBF with added glycine and measurements in SBF. Electrochemical impedance spectra were measured and interpreted with the equivalent-circuit approach, yielding estimates of the time-variation of the oxide film thickness and resistance were estimated. FT-IR, Surface Raman and VIS reflectance spectroscopies were used to characterise the surface before and after the exposure to SBF solutions. Spectroelectrochemical measurements revealed an higher corrosion resistance of the oxide films formed on Zr in the presence of glycine in the SBF matrix and a smoother electrode surface. |
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| AbstractList | Zr and Ti alloys are extensively used in the biomedical field owing to their optimal mechanical properties and excellent corrosion resistance. Fully ceramic implants based on zirconia are appealing with respect to the traditional Ti-based metallic ones for several reasons, such as: (i) improved aesthetic impact, (ii) better biocompatibility and (iii) better osteointegration. Nevertheless, fully ceramic implants exhibit serious mechanical and clinical drawbacks, chiefly brittleness and impossibility of post-implant position adjustments. In this paper we propose the novel approach of using a metal-based system, consisting of metallic Zr, for the bulk of the implant and an electrochemically grown zirconia coating, ensuring contact of the ceramic with the biological environment and isolation from the underlying metal. This solution combines the outstanding mechanical properties of the metal in the bulk with the optimal biochemical properties exclusively where they are needed: at the surface. The present paper--focussed on the electrochemical behaviour of the proposed system at the implant-wound and implant-growing bone interface--reports a time-dependent electrochemical corrosion study of zirconia-coated zirconium, performed in the following ways: (i) exposure and measurements in SBF (simulating the inorganic part of human plasma, relevant to wound chemistry), (ii) exposure and measurements in SBF with added glycine (the simplest, ubiquitous amino acid found in proteins), (iii) exposure in SBF with added glycine and measurements in SBF. Electrochemical impedance spectra were measured and interpreted with the equivalent-circuit approach, yielding estimates of the time-variation of the oxide film thickness and resistance were estimated. FT-IR, Surface Raman and VIS reflectance spectroscopies were used to characterise the surface before and after the exposure to SBF solutions. Spectroelectrochemical measurements revealed an higher corrosion resistance of the oxide films formed on Zr in the presence of glycine in the SBF matrix and a smoother electrode surface. Zr and Ti alloys are extensively used in the biomedical field owing to their optimal mechanical properties and excellent corrosion resistance. Fully ceramic implants based on zirconia are appealing with respect to the traditional Ti-based metallic ones for several reasons, such as: (i) improved aesthetic impact, (ii) better biocompatibility and (iii) better osteointegration. Nevertheless, fully ceramic implants exhibit serious mechanical and clinical drawbacks, chiefly brittleness and impossibility of post-implant position adjustments. In this paper we propose the novel approach of using a metal-based system, consisting of metallic Zr, for the bulk of the implant and an electrochemically grown zirconia coating, ensuring contact of the ceramic with the biological environment and isolation from the underlying metal. This solution combines the outstanding mechanical properties of the metal in the bulk with the optimal biochemical properties exclusively where they are needed: at the surface. The present paper--focussed on the electrochemical behaviour of the proposed system at the implant-wound and implant-growing bone interface--reports a time-dependent electrochemical corrosion study of zirconia-coated zirconium, performed in the following ways: (i) exposure and measurements in SBF (simulating the inorganic part of human plasma, relevant to wound chemistry), (ii) exposure and measurements in SBF with added glycine (the simplest, ubiquitous amino acid found in proteins), (iii) exposure in SBF with added glycine and measurements in SBF. Electrochemical impedance spectra were measured and interpreted with the equivalent-circuit approach, yielding estimates of the time-variation of the oxide film thickness and resistance were estimated. FT-IR, Surface Raman and VIS reflectance spectroscopies were used to characterise the surface before and after the exposure to SBF solutions. Spectroelectrochemical measurements revealed an higher corrosion resistance of the oxide films formed on Zr in the presence of glycine in the SBF matrix and a smoother electrode surface. [PUBLICATION ABSTRACT] |
| Author | Bozzini, Benedetto Carlino, Paolo Mele, Claudio |
| Author_xml | – sequence: 1 givenname: Benedetto surname: Bozzini fullname: Bozzini, Benedetto email: benedetto.bozzini@unisalento.it organization: Dipartimento di Ingegneria dell’Innovazione, Università del Salento – sequence: 2 givenname: Paolo surname: Carlino fullname: Carlino, Paolo organization: Dipartimento di Odontostomatologia e Chirurgia, Università di Bari – sequence: 3 givenname: Claudio surname: Mele fullname: Mele, Claudio organization: Dipartimento di Ingegneria dell’Innovazione, Università del Salento |
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| CitedBy_id | crossref_primary_10_1007_s10856_014_5186_4 crossref_primary_10_1007_s10008_016_3258_8 crossref_primary_10_1002_maco_201206717 crossref_primary_10_1016_j_tsf_2013_01_066 crossref_primary_10_1088_1757_899X_133_1_012010 crossref_primary_10_1016_j_apsusc_2012_01_043 crossref_primary_10_1002_maco_201508327 crossref_primary_10_1016_j_inoche_2023_110777 crossref_primary_10_1002_jbm_b_32833 crossref_primary_10_1016_j_matchemphys_2020_123859 crossref_primary_10_1016_j_matchemphys_2013_05_024 crossref_primary_10_1016_j_apsusc_2012_11_140 crossref_primary_10_1016_j_ceramint_2019_10_220 crossref_primary_10_1149_2_0671714jes crossref_primary_10_1016_j_ceramint_2022_09_176 |
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| Keywords | Passive Film Simulate Body Fluid Solution Simulate Body Fluid Zirconia Coating Oxide Film Thickness Body fluid Electrochemical properties Treatment Corrosion Surface properties Zirconium alloy Dentistry Glycine Dental implant Biomedical engineering |
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| SubjectTerms | Applied sciences Biological and medical sciences Biomaterials Biomedical Engineering and Bioengineering Biomedical materials Body Fluids - chemistry Body Fluids - metabolism Body Fluids - physiology Ceramics Chemistry and Materials Science Coated Materials, Biocompatible - chemistry Composites Corrosion Dental Implants Dental research Electrochemistry Exact sciences and technology Glass Glycine - chemistry Glycine - pharmacology Head and neck surgery. Maxillofacial surgery. Dental surgery. Orthodontics Humans Materials Science Materials Testing Maxillofacial surgery. Dental surgery. Orthodontics Medical sciences Metals. Metallurgy Microscopy, Electron, Scanning Models, Biological Natural Materials Polymer Sciences Regenerative Medicine/Tissue Engineering Solutions - chemistry Solutions - pharmacology Spectroscopy, Fourier Transform Infrared Spectrum Analysis, Raman Surface Properties Surfaces and Interfaces Surgery (general aspects). Transplantations, organ and tissue grafts. Graft diseases Thin Films Transplants & implants X-Ray Diffraction Zirconium - chemistry |
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| Title | Electrochemical behaviour and surface characterisation of Zr exposed to an SBF solution containing glycine, in view of dental implant applications |
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