Texturization of polycrystalline titanium surfaces after low-energy ion beam irradiation: impact on biocompatibility Articles uri icon

authors

  • GARCÍA, M.A.
  • GAGO FERNANDEZ, RAUL
  • ARROYO-HERNANDEZ, M.
  • DE LAORDEN, E.H.
  • IGLESIAS, M.
  • ESTEBAN MENDOZA, D.
  • CUERNO REJADO, RODOLFO
  • RICKARDS, J.

publication date

  • April 2023

start page

  • 1

end page

  • 9

issue

  • 129363

volume

  • 458

International Standard Serial Number (ISSN)

  • 0257-8972

Electronic International Standard Serial Number (EISSN)

  • 1879-3347

abstract

  • In this study, the impact of low-energy (1 keV) Ar+ ion-beam irradiation on the morphology of polycrystalline Ti disks was investigated. Targets were prepared by cutting and mechanically polishing commercial rods. The surface topographies before and after irradiation were characterized by scanning electron microscopy (SEM) and mechanical profilometry. Irradiation was performed using a wide range of incident angles (αi) from normal to grazing geometries at a total dose of 1018 ions/cm2. SEM analysis of the irradiated Ti targets revealed clear texturing with various attainable surface morphologies depending on αi. The surface features varied from ripples within patches with fingerprint-like patterns (0 ≤ αi ≤ 60°) to oriented structures parallel to the direction of the ion beam, such as pillar/tip structures (65 ≤ αi ≤ 75°) and shallow ripples (αi ≈ 80°). This morphological selectivity could be attributed to the competitive diffusive and erosive regimes, where the lateral uniformity of the morphology was affected by the limited size of the crystal grains. Finally, the wettability and biocompatibility of the characteristic topographies were evaluated, and the results indicated improved performance of the ion-beam-textured surfaces compared to the untreated ones.

subjects

  • Materials science and engineering

keywords

  • titanium; ion irradiation; pattern formation; wetting; biological assays