Influence of CO2 exposure on pH value, electrochemical properties, and the formation of calcium-phosphate on Ti–6Al–4V under adjusted in vitro conditions in DMEM

Virtanen S, Höhn S (2015)

Publication Language: English

Publication Type: Journal article

Publication year: 2015

Journal

Applied Surface Science Elsevier

Pages Range: 47-53

Journal Issue: 636

DOI: 10.1016/j.susc.2015.02.007

Abstract

Immersion tests for studying biomaterials surface reactions should be carried out at a pH value of 7.4 and an adjusted blood physiological electrolyte to simulate as far as possible in vivo conditions. The present work deals with surface reactivity of the biocompatible Ti-6Al-4V alloy in Dulbecco's Modified Eagle Medium (DMEM) and the influence of different immersion conditions on the pH value of solution and thus on the surface charge and calcium-phosphate formation on the oxide covered alloy surface. More specifically, the influence of the temperature (room temperature vs. 37°C) and atmospheric exposure (solution open-to-air vs. solution exposed to 5 % CO₂ in air) were investigated. Electrochemical measurements, XPS and ATR-IR studies were carried out for interface characterization. Precipitations of calcium-phosphate (Ca-P) on Ti-6Al-4V in DMEM are formed depending on the atmospheric conditions (presence or absence of CO₂). In absence of CO₂ strong coverage of the surface by a Ca-P layer takes place; in solution exposed to 5 % CO₂, however, only minor amounts of Ca-P are found on the surface. This drastically different behavior can be explained by different surface terminations of OH and TiO₂, induced by atmosphere-dependent pH change in solution. In consequence, different surface charges on Ti-6Al-4V can be formed at the interface depending on the type of hydroxides after contact with the electrolyte. Hence, the surface charge influences the interaction with adsorption of charged species and further modifies the oxide properties. The adsorption of the charged cations (Ca²⁺) and anions (PO₄^3-, HPO₄^2-, H₂PO^4-) lead to the formation of additional calcium phosphate layers. The pH of the solution is also important. At higher pH the titanium surface is more negatively charged leading to an increased electrostatic interaction with Ca²⁺ and reduced solubility of the calcium phosphates. Additional experiments indicate that the CO₂ content in the atmosphere is significantly more important for the surface reaction than a change in temperature (room temperature vs. 37.5°C).

Authors with CRIS profile

Sannakaisa Virtanen Professur für Werkstoffwissenschaften (Korrosion und Oberflächentechnik) Sarah Höhn Professur für Werkstoffwissenschaften (Korrosion und Oberflächentechnik)

How to cite

APA:

Virtanen, S., & Höhn, S. (2015). Influence of CO2 exposure on pH value, electrochemical properties, and the formation of calcium-phosphate on Ti–6Al–4V under adjusted in vitro conditions in DMEM. Applied Surface Science, 636, 47-53. https://doi.org/10.1016/j.susc.2015.02.007

MLA:

Virtanen, Sannakaisa, and Sarah Höhn. "Influence of CO2 exposure on pH value, electrochemical properties, and the formation of calcium-phosphate on Ti–6Al–4V under adjusted in vitro conditions in DMEM." Applied Surface Science 636 (2015): 47-53.

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