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chamber. Consequently, specimens that are electrically insulating or conducting, covered with adsorbed water molecules or impurities such as hydrocarbons, or prone to gaseous emission can be examined without cleaning or sputter‐coating with a conducting layer.

      Atomic Force Microscopy (AFM)

Schematic illustration of illustrating (a) the main components of the AFM technique, (b) imaging in the contact mode, and (c) imaging in the noncontact mode. Schematic illustration of curve of force versus separation between the tip and specimen surface, showing the repulsive and attractive regions corresponding to contact mode and noncontact mode imaging.

      Profilometry

Schematic illustration of illustrating the principle of optical interferometry.

      Schematic illustration of topography of as-fabricated silicon nitride obtained by (a) SEM, (b) AFM, and (c) optical profilometry. Schematic illustration of topography of as-fabricated silicon nitride obtained by (a) SEM, (b) AFM, and (c) optical profilometry. Schematic illustration of topography of as-fabricated silicon nitride obtained by (a) SEM, (b) AFM, and (c) optical profilometry.

      Source: From Bock et al. (2017) / with permission of John Wiley & Sons.

      5.5.3 Effect of Surface Topography on Cell and Tissue Response

      Although the mechanism of interaction is complex, beneficial effects of nanoscale to microscale surface topography on the response of cells in vitro and in vivo have been reported for several biomaterials, as discussed in Chapter 21. These effects have been well demonstrated for Ti and its alloy Ti6Al4V. Titanium and Ti6Al4V see considerable use as implants in dental and orthopedic surgery, and their microtopography can be varied using common surface treatments such as machining, grit blasting, and acid etching. When compared

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