Characterization of SiO₂ Plasma Etching with Perfluorocarbon (C₄F₈ and C₆F₆) and Hydrofluorocarbon (CHF₃ and C₄H₂F₆) Precursors for the Greenhouse Gas Emissions Reduction

This paper proposes the use of environmentally friendly alternatives, C₆F₆ and C₄H₂F₆, as perfluorocarbon (PFC) and hydrofluorocarbon (HFC) precursors, respectively, for SiO₂ plasma etching, instead of conventional precursors C₄F₈ and CHF₃. The study employs scanning electron microscopy for etch profile analysis and quadrupole mass spectrometry for plasma diagnosis. Ion bombardment energy at the etching conditions is determined through self-bias voltage measurements, while densities of radical species are obtained using quadrupole mass spectroscopy. The obtained results compare the etch performance, including etch rate and selectivity, between C₄F₈ and C₆F₆, as well as between CHF₃ and C₄H₂F₆. Furthermore, greenhouse gas (GHG) emissions are evaluated using a million metric ton of carbon dioxide equivalent, indicating significantly lower emissions when replacing conventional precursors with the proposed alternatives. The results suggest that a significant GHG emissions reduction can be achieved from the investigated alternatives without a deterioration in SiO₂ etching characteristics. This research contributes to the development of alternative precursors for reducing global warming impacts.