Advances in low GWP etch gasses

C. Jennings, Phong Nguyen, Scott R Biltek, Nathan Stafford
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Abstract

Fluorinated species are ubiquitous in semiconductor manufacturing, yet are known to have global warming potentials thousands of times higher than CO2. As abatement technologies are not completely effective and add additional costs, interest in reducing these emissions increases with semiconductor manufacturing volumes. We explore alternative chemistries for common plasma etch applications that retain patterning performance but with near zero GWP. Spectroscopic identification and quantification of etch byproducts is presented to demonstrate the beneficial environmental impacts of transitioning from the most common etch gasses.
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低GWP腐蚀气体的研究进展
含氟物质在半导体制造业中无处不在,但已知其全球变暖潜能值比二氧化碳高数千倍。由于减排技术并不完全有效,而且还会增加额外的成本,因此随着半导体制造量的增加,减少这些排放的兴趣也在增加。我们探索用于普通等离子蚀刻应用的替代化学物质,这些化学物质保留了图案性能,但GWP接近于零。光谱鉴定和蚀刻副产物的定量提出,以证明从最常见的蚀刻气体过渡对环境的有益影响。
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