Particle formation during low-pressure chemical vapor deposition from silane and oxygen: Measurement, modeling, and film properties
نویسندگان
چکیده
Particle generation in thermal chemical vapor deposition ~CVD! processes can lead to the formation of contaminant particles that affect film properties and eventually device performance. This article reports on measurements of particle formation during low-pressure CVD of SiO2 from silane and oxygen. Measurements of aerosol size distributions were made using a particle beam mass spectrometer ~PBMS! and were carried out at pressures and temperatures ranging from 0.5 to 2.0 Torr ~67–267 Pa! and 200–800 °C, using an O2 /SiH4 ratio of 20. We found that within this parameter space, there are three different particle formation regions and a particle-free region. The particle formation regions include an explosion region @200–300 °C, P*1.0 Torr ~;80 Pa!#, an unsteady region @400–600 °C, P*0.8 Torr ~;107 Pa!#, and a steady region @700–800 °C, P *0.6 Torr ~;67 Pa!#. PBMS size analysis in the steady region shows that the size distributions are bimodal with one mode around 7 nm in diameter and the other around 20 nm, which is in reasonable agreement with transmission electron microscopy measurements. A numerical model was developed to simulate particle nucleation and growth in this system. The model predicts that for a given temperature, there exists a critical pressure above which abundant particle formation occurs and below which particle production is insignificant. The pressures for which particle formation was measured with the PBMS are in good agreement with model predictions, and measured and calculated particle sizes are in reasonable agreement. It is also found that there is a correlation between particle concentration and film surface morphology, dielectric constant, and current– voltage characteristics of the film. © 2002 American Vacuum Society. @DOI: 10.1116/1.1448506#
منابع مشابه
Highly stable silicon dioxide films deposited by means of rapid thermal - low-pressure chemical vapor deposition onto InP
An attempt was made to deposit a high thermally stable silicon dioxide (SiOZ) film onto InP substrates. The films were grown by rapid thermal, low-pressure chemical vapor deposition (RT-LPCVD), using pure oxygen (0,) and 2% diluted silane (SiH,+) in argon (Ar) gas sources, in the temperature range of 350-550 “C and pressure range of 3-10 Torr. The SiO,/InP structures were heated, post-depositio...
متن کاملFTIR analysis of silicon dioxide thin film deposited by Metal organic-based PECVD
In this study, the silicon dioxide was deposited on the silicon substrate by metal-organic based plasma enhanced chemical vapor deposition (PECVD) method at the low temperature. The metal-organic tetraethoxy-silane (TEOS) was used as a silicon precursor in liquid state. In addition, oxygen and argon were used as ambient gases. Effects of the working pressure and O2/TEOS pressure ratio on the ch...
متن کاملNumerical Modeling of Gas-Phase Nucleation and Particle Growth during Chemical Vapor Deposition of Silicon
A numerical model was developed to predict gas-phase nucleation of particles during silane pyrolysis. The model includes a detailed clustering mechanism for the formation of hydrogenated silicon clusters containing up to ten silicon atoms. This mechanism was coupled to an aerosol dynamics moment model to predict particle growth, coagulation, and transport. Both zero-dimensional transient simula...
متن کاملOptical emission spectroscopy to diagnose powder formation in SiH4-H2 discharges
Silane and hydrogen discharges are widely used for the deposition of silicon thin film solar cells in large area plasmaenhanced chemical vapor deposition reactors. In the case of microcrystalline silicon thin film solar cells, it is of crucial importance to increase the deposition rate in order to reduce the manufacturing costs. This can be performed by using high silane concentration, and usua...
متن کاملRemote plasma-enhanced chemical vapour deposition of silicon nitride at atmospheric pressure
Silicon nitride films were deposited using an atmospheric pressure plasma source. The discharge was produced by flowing nitrogen and helium through two perforated metal electrodes that were driven by 13.56 MHz radio frequency power. Deposition occurred by mixing the plasma effluent with silane and directing the flow onto a rotating silicon wafer heated to between 100 ̊C and 500 ̊C. Film growth ra...
متن کامل