Chemical-mechanical polishing performance of core-shell structured polystyrene@ceria/nanodiamond ternary abrasives on sapphire wafer.

Driven by electrostatic attraction, Ce4+ ions or/and positively charged detonation nanodiamond (DND) particles can absorb onto negatively charged polystyrene (PS) spherical colloids. Three types of core-shell structured composite abrasives, PS@CeO 2 , PS@DND and PS@CeO 2 /DND, can thus be assembled. When PS@CeO 2 and PS@DND were used to polish sapphire wafer at pad rotating speed of 120–150 r/min and load pressure of ~3 kg, the material removing rate (MRR) exceeded 1.0 μm h−1, 10–20 % higher than unitary abrasives. The surface profile roughness (Ra) for wafer polished by these two composite abrasives was respectively 1.25 and 0.63 nm, which is superior to CeO 2 (Ra = 1.38 nm) and DND (Ra = 1.29 nm). When using PS@CeO 2 /DND, the polishing interface area can be increased owing to the combined effect of elastic PS spheres and intensively coated CeO 2 and DND. Meanwhile, the synergistic mechanism of sapphire-CeO 2 chemical reaction and the strong mechanical abrasion of DND particles benefit the polishing efficiency. MRR for this ternary composite abrasive attained 1.4–1.7 μm h−1 while sapphire can be smoothed to a sub-nanoscale roughness. [Display omitted] [ABSTRACT FROM AUTHOR]