Materials for Biomedical Engineering. Mohamed N. Rahaman

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Materials for Biomedical Engineering - Mohamed N. Rahaman


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modes of analysis. In static SIMS, an ion beam of low intensity is used so that analysis is confined to the outermost layers of the surface. In comparison, in dynamic SIMS, a high intensity beam is used to erode successive atomic layers at a relatively rapid rate. Static SIMS is more relevant to the application of biomaterials as it provides information about the outermost surface atoms. While SIMS has the advantages of high spatial resolution, high sensitivity for qualitative elemental analysis and the ability to provide a detailed analysis of the chemical composition of the surface, quantitative analysis of the surface composition is often difficult.

      As noted earlier, prior to implantation in the physiological environment, the surface of most polymers is normally covered with physically adsorbed water molecules. In comparison, most metals and ceramics have a surface composed of OH groups attached to the outermost metal atoms, on top of which are physically adsorbed H2O molecules. The physiological fluid in vivo, on the other hand, can be approximated as an aqueous medium of homeostatic temperature 37.4 °C and pH 7.4, which contains a variety of ions, small molecules such as amino acids, macromolecules such as proteins, and substances released by cells. Upon implantation, the surface of a biomaterial acquires a positive or negative charge due to adsorption of ions or molecules from the aqueous medium or dissociation of certain surface functional groups, depending on the surface chemistry of the biomaterial.

      5.4.1 Surface Charging Mechanisms

Schematic illustration of production of surface charge on a hydroxylated metal oxide surface by adsorption of ions from an “acidic” or “basic” solution.

      The PZC can be measured from acid–base titrations but, often, it is easier to measure the zeta ( ζ ) potential corresponding to the electrostatic potential at a small distance from the surface (a few tenths of a nanometer). The pH at which the measured ζ potential is zero is referred to as the isoelectric point (IEP). Upon implantation in the physiological environment, then, a material whose IEP is lower than ~7.4, such as a more acidic metal oxide, will have a negative surface charge and electrostatic potential, whereas one having an IEP higher than ~7.4, such as a more basic metal oxide, will have a positive surface charge and potential.

Schematic illustration of production of negative or positive surface charge on surface composed of functional groups, as exemplified by the carboxyl and amine groups. Schematic illustration of production of surface charge on a surface devoid of functional groups by van der Waals attraction of ions in solution. Schematic illustration of the electrostatic charge distribution <hr><noindex><a href=Скачать книгу