Investigation of structural properties of high‐rate deposited SiN_x films prepared at low temperatures (100–300 °C) by atmospheric‐pressure plasma CVD

Abstract: We have investigated the structural properties of silicon nitride (SiNx) films deposited at low temperatures (100–300 °C with very high rates (>50 nm/s) in atmospheric‐pressure He/H2/SiH4/NH3 plasma excited by a 150 MHz very high‐frequency (VHF) power using a cylindrical rotary electrode. For this purpose, SiNx films are prepared on Si(001) wafers varying NH3/SiH4 ratio, H2 concentration in the plasma and substrate temperature (Tsub). Infrared absorption spectroscopy is used to analyze the bonding configura… Show more

“…The AP plasma CVD system used in this study was equipped with a cylindrical rotary electrode of 300 mm in diameter and 100 mm in width [20][21][22]. Figure 1 schematically illustrates the experimental setup.…”

“…In our previous reports [21,22], we investigated the SiN x growth from helium (He)/hydrogen (H 2 )/SiH 4 /NH 3 gas mixtures in a substrate temperature (T sub ) range of 100-300°C and obtained a SiN x film showing reasonable dielectric properties at T sub = 300°C with a very high deposition rate of 168 nm/s. However, the decrease in T sub with maintaining other parameters constant resulted in the monotonous deterioration of film quality [22].…”

“…The 150 MHz very high-frequency (VHF) excitation of plasma enables us to generate stable AP plasma in a narrow (\1 mm) gap region with neither introducing ion damage into the film nor causing unnecessary rise of plasma gas temperature, while keeping high power density in the plasma [20]. In our previous reports [21,22], we investigated the SiN x growth from helium (He)/hydrogen (H 2 )/SiH 4 /NH 3 gas mixtures in a substrate temperature (T sub ) range of 100-300°C and obtained a SiN x film showing reasonable dielectric properties at T sub = 300°C with a very high deposition rate of 168 nm/s. However, the decrease in T sub with maintaining other parameters constant resulted in the monotonous deterioration of film quality [22].…”

Room-Temperature Silicon Nitrides Prepared with Very High Rates (>50 nm/s) in Atmospheric-Pressure Very High-Frequency Plasma

“…The AP plasma CVD system used in this study was equipped with a cylindrical rotary electrode of 300 mm in diameter and 100 mm in width [20][21][22]. Figure 1 schematically illustrates the experimental setup.…”

“…In our previous reports [21,22], we investigated the SiN x growth from helium (He)/hydrogen (H 2 )/SiH 4 /NH 3 gas mixtures in a substrate temperature (T sub ) range of 100-300°C and obtained a SiN x film showing reasonable dielectric properties at T sub = 300°C with a very high deposition rate of 168 nm/s. However, the decrease in T sub with maintaining other parameters constant resulted in the monotonous deterioration of film quality [22].…”

“…The 150 MHz very high-frequency (VHF) excitation of plasma enables us to generate stable AP plasma in a narrow (\1 mm) gap region with neither introducing ion damage into the film nor causing unnecessary rise of plasma gas temperature, while keeping high power density in the plasma [20]. In our previous reports [21,22], we investigated the SiN x growth from helium (He)/hydrogen (H 2 )/SiH 4 /NH 3 gas mixtures in a substrate temperature (T sub ) range of 100-300°C and obtained a SiN x film showing reasonable dielectric properties at T sub = 300°C with a very high deposition rate of 168 nm/s. However, the decrease in T sub with maintaining other parameters constant resulted in the monotonous deterioration of film quality [22].…”

Room-Temperature Silicon Nitrides Prepared with Very High Rates (>50 nm/s) in Atmospheric-Pressure Very High-Frequency Plasma

Change of chemical bonding properties at SiNx/GaN/AlGaN interface with SiH4 flow rate and its impact on the carrier transport properties of MIS-diodes

Atmospheric Pressure Plasmas: Low-Temperature Processes