Abstract: Chemical Mechanical Planarization (CMP) polishing compositions comprising abrasive particles and additives to boost removal rates of films comprising elemental silicon such as poly-silicon and Silicon-Germanium.

Abstract: Chemical Mechanical Planarization (CMP) polishing compositions comprising abrasive particles and additives to boost removal rates of films comprising elemental silicon such as poly-silicon and Silicon-Germanium.

Abstract: Chemical Mechanical Planarization (CMP) polishing compositions comprising abrasive particles and additives to boost removal rates of films comprising elemental silicon such as poly-silicon and Silicon-Germanium.

Abstract: Chemical-mechanical polishing (CMP) compositions containing chemical additives and methods of using the CMP compositions are disclosed. The CMP composition comprises abrasive; chemical additive; liquid carrier; optionally an oxidizing agent; a pH buffering agent and salt; a surfactant and a biocide. The CMP compositions and the methods provide enhanced removing rate for “SiC”, SiN” and “SiCxNy” films; and tunable removal selectivity for “SiC” in reference to SiO2, “SiN” in reference to SiO2, “SiC” in reference to “SiN”, or “SiCxNy” in reference to SiO2; wherein x ranges from 0.1 wt % to 55 wt %, y ranges from 0.1 wt % to 32 wt %.

Abstract: An effective chemical mechanical planarization (CMP) method is provided for forming vias in silicon wafers for the fabrication of stacked devices using TSV (through-silicon via) technology. The method affords high removal rates of both metal (e.g., copper) and silicon such that a need for a grinding step prior to CMP processing may not be necessary. The method affords an approximately 1:1 Cu:Si selectivity for removal of silicon and copper under appropriate conditions and the Cu:Si selectivity is tunable by adjustment of levels of some key components.

Abstract: Chemical-mechanical polishing (CMP) compositions containing chemical additives and methods of using the CMP compositions are disclosed. The CMP composition comprises abrasive; chemical additive; liquid carrier; optionally an oxidizing agent; a pH buffering agent and salt; a surfactant and a biocide. The CMP compositions and the methods provide enhanced removing rate for “SiC”, SiN” and “SiCxNy” films; and tunable removal selectivity for “SiC” in reference to SiO2, “SiN” in reference to SiO2, “SiC” in reference to “SiN”, or “SiCxNy” in reference to SiO2; wherein x ranges from 0.1 wt % to 55 wt %, y ranges from 0.1 wt % to 32 wt %.

Abstract: An effective chemical mechanical planarization (CMP) method is provided for forming vias in silicon wafers for the fabrication of stacked devices using TSV (through-silicon via) technology. The method affords high removal rates of both metal (e.g., copper) and silicon such that a need for a grinding step prior to CMP processing may not be necessary. The method affords an approximately 1:1 Cu:Si selectivity for removal of silicon and copper under appropriate conditions and the Cu:Si selectivity is tunable by adjustment of levels of some key components.

Abstract: An effective method for forming through-base wafer vias for the fabrication of stacked devices, such as electronic devices, is described. The base wafer can be a silicon wafer, in which case the method relates to TSV (through-silicon via) technology. The method affords high removal rates of silicon under appropriate conditions.