Abstract
Chemical Mechanical Planarization (CMP) process development for 10nm nodes and beyond demands a systematic understanding of atomic-scale chemical and mechanical surface interactions for the control of material removal, selectivity, and defectivity. Particularly the CMP of barrier/liner films is challenging with new materials introduced to better adhere the contact metal at the interface and limit the probability of metal diffusion to the transistors. The relative selectivity of the CMP removal rates of the barrier materials against the contact metal needs to be controlled depending on the integration scheme. This paper focuses on understanding the barrier CMP process selectivity on the model W/Ti/TiN applications through electrochemical evaluations and chemically modified thin film analyses. Ex-situ electrochemical evaluations are conducted on the W/Ti/TiN system to evaluate the passivation rates in various slurry formulations as a function of the slurry chemistry and the abrasive particle solids loading. Results of the passivation rates are compared to the removal rate selectivity and the post CMP surface quality on blanked W, Ti, and TiN films. A new methodology for CMP slurry formulations through ex-situ electrochemical analyses is outlined for new and more challenging barrier films while simultaneously highlighting an approach for corrosion prevention on the metallic layers.
Highlights
To cite this article: Rawana Yagan and G
It was observed that the interface reaction between TiW and Si layer was sensitive to the deposition temperature of the barrier metal, while W/Ti/TiN/Si was not,[12] (ii) Ti/TiN stack provides a better electro-migration lifetime performance than TiN process which forms a TiN-Ti compound from a multi-Ti-mono-N cluster.[13]
Tafel data were calculated for each scan and used to determine the output parameters by the Gamry Echem Analyst software including; (i) the corrosion rate, (ii) the corrosion current (Icorr) and (iii) the electrochemical corrosion potential (Ecorr) which is a measure of the voltage difference between the wafers as the working electrodes and the standard reference electrode
Summary
A Fundamental Approach to Electrochemical Analyses on Chemically Modified Thin Films for Barrier CMP Optimization. CMP slurry chemistry and slurry particle concentrations were tuned to enable 1:1:1 removal rate selectivity of the W/Ti/TiN films to facilitate a single step planarization process. Tafel data were calculated for each scan and used to determine the output parameters by the Gamry Echem Analyst software including; (i) the corrosion rate, (ii) the corrosion current (Icorr) and (iii) the electrochemical corrosion potential (Ecorr) which is a measure of the voltage difference between the wafers as the working electrodes and the standard reference electrode. The CMP performances of all the W/Ti and TiN coupons were optimized with 3wt% slurry solids loading by only varying the oxidizer concentration. To evaluate the impact of mechanical interactions, additional CMP experiments were conducted at 0.2M oxidizer concentration by changing the slurry solids loading from 3%wt to 5%, 10%, and 15wt%. The baseline silica slurry with 30%wt solids concentration was diluted with pH-adjusted water (at pH 9) to modify the solids loadings
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