In-situ surface and interface study of atomic oxygen modified carbon containing porous low-κ dielectric films for barrier layer applications

Abstract: The surface treatment of ultralow-j dielectric layers by exposure to atomic oxygen is presented as a potential mechanism to modify the chemical composition of the dielectric surface to facilitate copper diffusion barrier layer formation. High carbon content, low-j dielectric films of varying porosity were exposed to atomic oxygen treatments at room temperature, and x-ray photoelectron spectroscopy studies reveal both the depletion of carbon and the incorporation of oxygen at the surface. Subsequent dynamic wat… Show more

“…Dynamic Contact Angle. Immediately after argon plasma cleaning, advancing and receding WCAs (see Materials section) were recorded on five different regions of each sample using a highspeed camera (100 Hz sampling rate), following the procedure described by Bogan et al 30 Samples were then placed in a sealed desiccator containing a vial of nonane or perfluorononane at a controlled ambient temperature of 21 °C and relative humidity of 40%. Advancing and receding contact angles were measured at multiple time points to track the contact angle evolution over a period of 96 h. At each contact angle measurement time step, a sample was removed from the desiccator and allowed to equilibrate with ambient for ∼1 min before the measurement to desorb any weakly bound (perfluoro)nonane molecules.…”

Exploring the Role of Adsorption and Surface State on the Hydrophobicity of Rare Earth Oxides

“…Dynamic Contact Angle. Immediately after argon plasma cleaning, advancing and receding WCAs (see Materials section) were recorded on five different regions of each sample using a highspeed camera (100 Hz sampling rate), following the procedure described by Bogan et al 30 Samples were then placed in a sealed desiccator containing a vial of nonane or perfluorononane at a controlled ambient temperature of 21 °C and relative humidity of 40%. Advancing and receding contact angles were measured at multiple time points to track the contact angle evolution over a period of 96 h. At each contact angle measurement time step, a sample was removed from the desiccator and allowed to equilibrate with ambient for ∼1 min before the measurement to desorb any weakly bound (perfluoro)nonane molecules.…”

Exploring the Role of Adsorption and Surface State on the Hydrophobicity of Rare Earth Oxides

“…Pre VPI, all spectra are dominated by an SiO 2 associated peak at approximately 533.3 eV. 64,65 A second peak at 532.1 eV, 532.0 eV and 531.7 eV in the P2VP, P4VP and PS spectra respectively is associated with C-O bonding as observed in the C 1s spectra in Figure 4, within the expected BE range. 57 Post VPI, accurately fitting the data results in the necessity of an additional, third component, located at 532.6 eV, 532.8 eV and 531.9 eV for the P2VP, P4VP and PS respectively.…”

Analysing trimethylaluminum infiltration into polymer brushes using a scalable area selective vapor phase process

“…Chaudhari et al have assessed the role atomic oxygen plays in O 2 plasma induced damage of ultralow-k dielectrics [39]. Bogan et al have used atomic oxygen as a less aggressive replacement for plasma treatment to modify dense low-k dielectric surfaces [40]. Dai et al using self-assembled monolayers as a substitute for wool fibres, investigated the impact of atomic oxygen and O 2 plasma on an alkylthiolate SAM.…”

The role of atomic oxygen in the decomposition of self-assembled monolayers during area-selective atomic layer deposition