Title :
Issue of particle formation in the high rate film deposition by plasma assisted deposition processes
Author :
Han, Jeon G. ; Sahu, B.B. ; Shin, Kyung S. ; Lee, J.S. ; Jin, Su B.
Author_Institution :
Dept. of Adv. Mater. Sci. & Eng., Sungkyunkwan Univ., Suwon, South Korea
Abstract :
Particle contamination in processing plasma reactors that are designed for deposition, etching, and sputtering applications e.g., for solar cells, flat panel displays, and chip production often plays a crucial role in the quality and the yield of the processed products. Although plasma enhanced chemical vapour deposition (PECVD) is presently still the workhorse of the semiconductor industry, it is also suffers from the drawback of dust production, which is linked to the use of plasma. For instance the formation of dust, caused by the positive potential in the bulk of the plasma, which traps negatively charged particles, is a serious issue. The reduction or removal of such particles poses a major technological challenge for plasma-assisted processing, which needs to be addressed.
Keywords :
crystal orientation; dissociation; dusty plasmas; elemental semiconductors; hydrogen; hydrogenation; nanofabrication; nanoparticles; nucleation; plasma CVD; plasma density; plasma diagnostics; scanning electron microscopy; semiconductor growth; semiconductor thin films; silicon; surface diffusion; ultraviolet spectra; visible spectra; H2 dissociation; Langmuir probe; PECVD; SEM; Si:H; UHF source; atomic hydrogen; atomic hydrogen density; chemical reactions; chip production; crystal orientation; crystallinity; deposition rate; dust contamination; dust growth; dust production; energy excitations; etching; excitation frequencies; excited species; flat panel displays; frequency 13.56 MHz; frequency 314 MHz; gas utilization; high order silane radicals; high rate film deposition; high resolution microscope; hydrogenated nanocrystalline silicon film; impinging species; ion bombardment energy; negatively charged particles; nucleation sites; optical emission spectroscopy; particle contamination; particle formation; plasma assisted deposition processes; plasma chamber; plasma density; plasma diagnostics; plasma enhanced chemical vapour deposition; plasma reactors; polysilane molecules; semiconductor industry; sheath voltage; silane dissociation; silane radicals; solar cells; sputtering; surface diffusion; Chemicals; Contamination; Films; Plasmas; Production; Silicon; Surface treatment;
Conference_Titel :
Plasma Sciences (ICOPS), 2015 IEEE International Conference on
Conference_Location :
Antalya
DOI :
10.1109/PLASMA.2015.7179885
