Lasagni, Andrés-FabiánWiesmann, Hans-PeterZwahr, ChristophChristophZwahr2022-03-072022-03-072019https://publica.fraunhofer.de/handle/publica/2832051 Motivation // 2 Theoretical principles and definitions / 2.1 Biocompatibility of titanium implants / 2.2 Physical fundamentals of laser processing // 3 State of the art / 3.1 Surface treatments to improve bone response to implant material / 3.2 Influencing properties for strong bone response / 3.3 Topographical properties for bacteria-repellency / 3.4 Productivity of standard functionalization processes // 4 Materials and methods / 4.1 Titanium Material / 4.2 Laser sources / 4.3 Direct laser interference patterning using a beam splitter setup / 4.4 Direct laser interference patterning using a diffractive optical element setup / 4.5 Characterization methods // 5 Results and discussion / 5.1 Surface patterning for controlling interaction with biological systems / 5.2 Properties of laser-structured surface patterns // 6 Development of a cost-effective concept for functionalizing dental implants / 6.1 Processing strategies for implant geometries / 6.2 Productivity and profitability analysis // 7 Conclusions and outlook / 7.1 Summary / 7.2 Outlooken621671Functionalization of titanium surfaces using laser ablation methods for improving dental implantsdoctoral thesis