Role of Potassium Tolyltriazole as an Inhibitor in H₂O₂-Based Slurry on Cu/Ru Patterned Wafer CMP

Abstract: In the process of chemical mechanical planarization (CMP) during copper interconnection fabrication, the inhibitor in the copper slurry plays an important role in obtaining a good planar surface after CMP. In this paper, a kind of corrosion inhibitor TTAK was introduced in H2O2-based alkaline slurry. The experimental results show that the addition of TTAK can effectively reduce the removal rate (RR) and static corrosion rate (SER) of copper. As the increase of TTAK concentration, the passivation effect is enha… Show more

“…The decrease in the corrosion potential indicates a weakened protective effect of the passivation film on the Ru electrode surface, making the electrode surface susceptible to erosion by corrosive particles in the solution. 29,38 In addition, as the concentration of K 4 Fe(CN) 6 increases, the corrosion current density gradually increases (from 5.8 μA cm −2 to 125.6 μA cm −2 ), indicating an enhanced corrosive effect of the solution on Ru and an accelerated oxidation and corrosion rate of Ru in the solution. It can be observed from Table II that when the concentration of K 4 Fe(CN) 6 is varied from 7.5 mM to 10 mM, there is a most pronounced change in the corrosion current density.…”

“…27 Although ruthenium, being a promising barrier material, has many of the aforementioned advantages, chemical mechanical polishing(CMP) after deposition of ruthenium barrier is challenging as a consequence of its high mechanical hardness(6.5 Mohs) and strong chemical inertness, which pushes the approach to actualize high removal rate of ruthenium towards screening for powerful and valid oxidizers. 15,17,26,29 In early research, the removal rate of ruthenium over 60 nm min −1 was successfully attained by using ceric ammonium nitrate, potassium bromate or potassium peroxymonosulfate as an oxidizer under the condition of strong acid (pH ⩽ 2) and high down-pressure(>5 psi). 30 It must be pointed out here that barrier CMP is not recommended to be accomplished using a highly acidic polishing slurry to avoid excessive corrosion of the adjoining copper wiring.…”

Effect of Potassium Ferrocyanide on CMP Performance of Ruthenium in H₂O₂-based Slurries

“…The decrease in the corrosion potential indicates a weakened protective effect of the passivation film on the Ru electrode surface, making the electrode surface susceptible to erosion by corrosive particles in the solution. 29,38 In addition, as the concentration of K 4 Fe(CN) 6 increases, the corrosion current density gradually increases (from 5.8 μA cm −2 to 125.6 μA cm −2 ), indicating an enhanced corrosive effect of the solution on Ru and an accelerated oxidation and corrosion rate of Ru in the solution. It can be observed from Table II that when the concentration of K 4 Fe(CN) 6 is varied from 7.5 mM to 10 mM, there is a most pronounced change in the corrosion current density.…”

“…27 Although ruthenium, being a promising barrier material, has many of the aforementioned advantages, chemical mechanical polishing(CMP) after deposition of ruthenium barrier is challenging as a consequence of its high mechanical hardness(6.5 Mohs) and strong chemical inertness, which pushes the approach to actualize high removal rate of ruthenium towards screening for powerful and valid oxidizers. 15,17,26,29 In early research, the removal rate of ruthenium over 60 nm min −1 was successfully attained by using ceric ammonium nitrate, potassium bromate or potassium peroxymonosulfate as an oxidizer under the condition of strong acid (pH ⩽ 2) and high down-pressure(>5 psi). 30 It must be pointed out here that barrier CMP is not recommended to be accomplished using a highly acidic polishing slurry to avoid excessive corrosion of the adjoining copper wiring.…”

Effect of Potassium Ferrocyanide on CMP Performance of Ruthenium in H₂O₂-based Slurries

A review: research progress of chemical–mechanical polishing slurry for copper interconnection of integrated circuits

Temperature Control for High Removal Rate and Low Dishing in TGV CMP