This work illustrates the effectiveness of introducing CH4/H2 to the etch chemistry on boosting the selectivity toward Pt in dry patterning of Pb(ZrxTi1−x)O3 (PZT) thin films via inductively coupled plasma reactive ion etching. A significant increase in etch selectivity from 6.3 to 21 with respect to Pt is observed upon the addition of 20 vol. % CH4/H2 to a CHF3/Cl2/BCl3 gas mixture, while the etch rate remains constant at 50 nm min−1. It is believed that the simultaneous presence of BCl3 and CH4/H2 enhances the chemical aspect of the etch mechanism by reduction of Pb through BCl3 and subsequent reaction with CH4/H2. Using this approach in a soft-landing step is expected to simplify the process flow and increase the throughput in industrial PZT patterning by allowing a precise etch stop while maintaining high etch rates and aspect ratios in a single process.
Petschnigg et al. (Thu,) studied this question.