Dramatic advances are being made in dry processing technologies. Atomic scale precision below 10 nm is now possible with fine patterning technologies for high-volume manufacturing of semiconductor devices. The isotropic and anisotropic nature of both film deposition and etching is versatile for nanoscale fabrication of three-dimensional features, such as high-aspect-ratio (HAR) features. Here we conduct a systematic review of the literature over the last 40 years to evaluate the history and progress of dry processes with regard to fine pattern transfer, HAR feature formation, and multiple patterning as lithographic techniques. Finally, we address the major challenges shared across the plasma science and technology community.
Semiconductor device production has grown year on year, with high-volume manufacturing supported by advances in plasma processes. In plasma-based processing, ions and reactive species synergistically enhance chemical reactions, whose kinetics is in a nonequilibrium state in the region of the surface subjected to ion bombardment. To control such processing, methods for process monitoring, equipment control, modeling and simulation, and controlling plasma-induced damage, are required. Here, we conduct a systematic review of the literature over the last 40 years to evaluate the history and progress of dry processes in regard to intelligent process-control. We also address the challenges of implementing “virtual product development” utilizing information technology.
The non-thermal nature of chemical reactions in plasma chemistry is considered to be suitable for next-generation energy production from plasma-material syntheses and renewable sources. As emerging multidisciplinary applications, plasma medicine and plasma agriculture are currently topical applications that make use of atmospheric pressure plasmas. Here, we conduct a systematic review of the literature over the last 40 years to evaluate the history and progress of dry processes with regard to atmospheric pressure plasma technologies as well as material synthesis and thin-film deposition. In this review, selected breakthroughs are reviewed. Finally, near-future major challenges are addressed to encourage new multidisciplinary research across the plasma science and technology community.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.