• Title of article

    Revisiting the physical processes of vapodeposited thin gold films on chemically modified glass by atomic force and surface plasmon microscopies

  • Author/Authors

    Roland، نويسنده , , Thibault and Khalil، نويسنده , , André and Tanenbaum، نويسنده , , Aaron and Berguiga، نويسنده , , Lotfi and Delichère، نويسنده , , Pierre and Bonneviot، نويسنده , , Laurent and Elezgaray، نويسنده , , Juan and Arneodo، نويسنده , , Alain and Argoul، نويسنده , , Françoise، نويسنده ,

  • Issue Information
    هفته نامه با شماره پیاپی سال 2009
  • Pages
    14
  • From page
    3307
  • To page
    3320
  • Abstract
    The preparation of very thin (at the scale of a few tens of nanometers) gold films by thermal evaporation and deposition on a solid substrate (glass) remains a key step for the elaboration of transparent and sensitive optical biosensors. We study the influence of the glass surface treatment and its thermal conductivity on the structure and composition of evaporated gold films. Using a combination of atomic force microscopy (AFM), high resolution surface plasmon resonance (SPR) imaging, and X-ray photoelectron spectroscopy (XPS), we demonstrate that the grafting of a layer of long chain mercaptant, using 11-mercaptoundecyltrimethoxysilane ( S ξ Si ) , prior to gold deposition produces a drastic modification of gold inner and surface textures. A thorough investigation of AFM image topography by 2D wavelet-based segmentation method reveals the flat conical shape of the gold surface grains and their shape invariance with the glass surface chemical treatment. However, this treatment leads to a drastic decrease of the mean size and polydispersity of these grains by a factor of 2, thereby lowering the gold surface roughness. The rationale is that the combination of surface forces and thermal transfer drives the formation of homogeneous and flatter gold films.
  • Keywords
    physical vapor deposition , Self-assembled monolayer , Scanning surface plasmon microscopy , surface plasmon resonance , atomic force microscopy , WTMM segmentation , Thin gold films , wavelet transform
  • Journal title
    Surface Science
  • Serial Year
    2009
  • Journal title
    Surface Science
  • Record number

    1705211