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Wood, Jonathan
Deutsches Elektronen-Synchrotron DESY
in Cooperation with on an Cooperation-Score of 37%
Topics
Publications (6/6 displayed)
- 2024Damage Behavior with Atomic Force Microscopy on Anti-Bacterial Nanostructure Arrayscitations
- 2024Exploring the Challenges of Characterising Surface Topography of Polymer–Nanoparticle Compositescitations
- 2022Bio-Inspired Nanostructured Ti-6Al-4V Alloycitations
- 2022Spiked Titanium Nanostructures That Inhibit Anaerobic Dental Pathogenscitations
- 2022Nanomechanical tribological characterisation of nanostructured titanium alloy surfaces using AFMcitations
- 2019Laser-wakefield accelerators for high-resolution X-ray imaging of complex microstructurescitations
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article
Damage Behavior with Atomic Force Microscopy on Anti-Bacterial Nanostructure Arrays
Abstract
<p>The atomic force microscope is a versatile tool for assessing the topography, friction, and roughness of a broad spectrum of surfaces, encompassing anti-bacterial nanostructure arrays. Measuring and comparing all these values with one instrument allows clear comparisons of many nanomechanical reactions and anomalies. Increasing nano-Newton-level forces through the cantilever tip allows for the testing and measuring of failure points, damage behavior, and functionality under unfavorable conditions. Subjecting a grade 5 titanium alloy to hydrothermally etched nanostructures while applying elevated cantilever tip forces resulted in the observation of irreversible damage through atomic force microscopy. Despite the damage, a rough and non-uniform morphology remained that may still allow it to perform in its intended application as an anti-bacterial implant surface. Utilizing an atomic force microscope enables the evaluation of these surfaces before their biomedical application.</p>