Low-Temperature and High-Speed Fabrication of Nanocrystalline Ge Films on Cu Substrates Using Sub-Torr-Pressure Plasma Sputtering

Abstract: We fabricated nanocrystalline Ge films using radio-frequency (RF) magnetron plasma sputtering deposition under a high Ar-gas pressure. The Ge nanograins changed from amorphous to crystalline when the distance between the Ge sputtering target and the substrate was decreased to 5 mm and the RF input power was 11.8 W/cm 2 (60 W), where the deposition rate was as high as 660 nm/min. In addition, the size of the nanocrystalline grains increased from 100 to 307 nm when the RF input power for plasma production was in… Show more

“…[28][29][30][31] A large number of isolated nanoparticles and radical atoms as adhesive are simultaneously deposited on substrates without aggregation in the plasma process. 22,32,33) We have already successfully generated a dispersed arrangement of monodisperse nanograins without aggregation using an Ar high-pressure plasma process in the sub-Torr range. 34,35) In the present study, we used Ar highpressure sputtering to fabricate GeSn nanomaterials for Li + -ion battery anodes.…”

Fabrication of amorphous LiPON, LiAlGePO, and GeSn films in low-temperature plasma sputtering process for all-solid-state Li⁺-ion battery

“…[28][29][30][31] A large number of isolated nanoparticles and radical atoms as adhesive are simultaneously deposited on substrates without aggregation in the plasma process. 22,32,33) We have already successfully generated a dispersed arrangement of monodisperse nanograins without aggregation using an Ar high-pressure plasma process in the sub-Torr range. 34,35) In the present study, we used Ar highpressure sputtering to fabricate GeSn nanomaterials for Li + -ion battery anodes.…”

Fabrication of amorphous LiPON, LiAlGePO, and GeSn films in low-temperature plasma sputtering process for all-solid-state Li⁺-ion battery