Mechanism of Hydrogenated Microcrystalline Si Film Deposition by Magnetron Sputtering Employing a Si Target and H₂/Ar Gas Mixture

Abstract: The mechanism of hydrogenated microcrystalline silicon (µc-Si:H) film deposition by magnetron sputtering employing a Si target and H2/Ar gas mixture has been investigated by measuring Si and H atom densities in the gas phase by laser-induced fluorescence spectroscopy. The crystalline volume fraction of the film correlated positively with H atom density. The variation in Si atom density indicated the increase in sputtering yield from the Si target in the H2/Ar discharge. The surface of the Si target immersed in… Show more

“…Figure 3a shows the Raman spectra of lc-Si:H thin films deposited at different substrate temperatures. The Raman spectra of all lc-Si:H thin films have a narrow and predominant peak located at *518 cm -1 , indicating that the thin films contain a crystalline Si structure [11,16]. The peak width becomes narrower as substrate temperature increases, implying that the crystallinity of thin films increases as substrate temperature increases [11,16].…”

“…where I 480 , I 505 and I 520 are the integrated intensities of scattering peaks at *480 cm -1 (amorphous phase), *505 cm -1 (defective part of the crystalline phase) and *520 cm -1 (crystalline phase), respectively [11,16]. The hydrogen bonding configuration and total bonded hydrogen content (c H ) of thin films were determined by FT-IR (Thermo Nicolet 6700) in the wave number range of 4000-400 cm -1 .…”

“…The magnetron sputtering process is a good alternative because it has a capability for large area deposition and process controllability, and, especially, it is a safe process not using toxic and explosive gases [9,10]. Previous studies showed that lc-Si:H thin films can be obtained by frequency (RF) magnetron sputtering with a silicon target when the sputtering discharge is operated with the H 2 /Ar gas mixture [7][8][9]11]. And it was found that the growth and properties of lc-Si:H thin films would be influenced by deposition conditions such as substrate temperature, RF power, total pressure and partial hydrogen and argon dilution [7][8][9][11][12][13][14].…”

“…Previous studies showed that lc-Si:H thin films can be obtained by frequency (RF) magnetron sputtering with a silicon target when the sputtering discharge is operated with the H 2 /Ar gas mixture [7][8][9]11]. And it was found that the growth and properties of lc-Si:H thin films would be influenced by deposition conditions such as substrate temperature, RF power, total pressure and partial hydrogen and argon dilution [7][8][9][11][12][13][14]. The substrate temperature is a crucial deposition condition for optimization of growth and properties of lc-Si:H thin films [14,15].…”

Growth and properties of hydrogenated microcrystalline silicon thin films prepared by magnetron sputtering with different substrate temperatures

“…Figure 3a shows the Raman spectra of lc-Si:H thin films deposited at different substrate temperatures. The Raman spectra of all lc-Si:H thin films have a narrow and predominant peak located at *518 cm -1 , indicating that the thin films contain a crystalline Si structure [11,16]. The peak width becomes narrower as substrate temperature increases, implying that the crystallinity of thin films increases as substrate temperature increases [11,16].…”

“…where I 480 , I 505 and I 520 are the integrated intensities of scattering peaks at *480 cm -1 (amorphous phase), *505 cm -1 (defective part of the crystalline phase) and *520 cm -1 (crystalline phase), respectively [11,16]. The hydrogen bonding configuration and total bonded hydrogen content (c H ) of thin films were determined by FT-IR (Thermo Nicolet 6700) in the wave number range of 4000-400 cm -1 .…”

“…The magnetron sputtering process is a good alternative because it has a capability for large area deposition and process controllability, and, especially, it is a safe process not using toxic and explosive gases [9,10]. Previous studies showed that lc-Si:H thin films can be obtained by frequency (RF) magnetron sputtering with a silicon target when the sputtering discharge is operated with the H 2 /Ar gas mixture [7][8][9]11]. And it was found that the growth and properties of lc-Si:H thin films would be influenced by deposition conditions such as substrate temperature, RF power, total pressure and partial hydrogen and argon dilution [7][8][9][11][12][13][14].…”

“…Previous studies showed that lc-Si:H thin films can be obtained by frequency (RF) magnetron sputtering with a silicon target when the sputtering discharge is operated with the H 2 /Ar gas mixture [7][8][9]11]. And it was found that the growth and properties of lc-Si:H thin films would be influenced by deposition conditions such as substrate temperature, RF power, total pressure and partial hydrogen and argon dilution [7][8][9][11][12][13][14]. The substrate temperature is a crucial deposition condition for optimization of growth and properties of lc-Si:H thin films [14,15].…”

Growth and properties of hydrogenated microcrystalline silicon thin films prepared by magnetron sputtering with different substrate temperatures

“…The configuration of the sputtering chamber was as follows. 7) A conventional magnetron sputtering source with a pair of cylindrical permanent magnets was inserted from the bottom of a cylindrical vacuum chamber, which was evacuated using a turbomolecular pump below a base pressure of 1 Â 10 À6 Torr. An rf power supply at a frequency of 13.56 MHz was connected to a cathode electrode via an automatic matching circuit.…”

Enhancement of Crystal Growth in Si Thin-Film Deposition by H-Radical-Assisted Magnetron Sputtering

Hydrogen effect on structural and optical properties of in-situ fabricated nc-Si:H prepared by facing targets sputtering