Density evaluation of remotely-supplied hydrogen radicals produced via tungsten filament method for SiCl₄ reduction

Abstract: Effect of the hydrogen radical on the reduction of a silicon tetrachloride (SiCl 4 ) source was studied. The hydrogen radicals were generated using a tungsten (W) filament in a generation chamber, and were remotely supplied to another reaction chamber. The density of the hydrogen radical was estimated from the optical transmittance of 600-nm-wavelength light through phosphate glass doped with tungsten oxide (WO 3 ). Lifetime of the hydrogen radical seemed sufficiently long, and its density as supplied to the r… Show more

“…Because we generate H-radicals by flowing H 2 over a hot W filament, the filament temperature T f controls the amount of H-radicals in the reaction atmosphere, with higher T f generating more radicals. 31,32 Here, we compare the reaction atmosphere at T f = ambient temperature, 1200, and 1700 °C, generating H 2 reaction atmospheres with no Hradical (H 0 ), low amount of H-radials (H low ), and high amount of H-radicals (H high ), respectively.…”

“…Next, we discuss the effects of H-radicals on the product film integrity by comparing the surfaces of the BaLiH 3 (100) thin films grown on the MgAl 2 O 4 (100) substrate at T dep = 150 °C in molecular H 2 reaction atmospheres with different amounts of H-radicals. Because we generate H-radicals by flowing H 2 over a hot W filament, the filament temperature T f controls the amount of H-radicals in the reaction atmosphere, with higher T f generating more radicals. , Here, we compare the reaction atmosphere at T f = ambient temperature, 1200, and 1700 °C, generating H 2 reaction atmospheres with no H-radical ( H 0 ), low amount of H-radials ( H low ), and high amount of H-radicals ( H high ), respectively.…”

Epitaxial Thin Film Growth of Perovskite Hydrides MLiH₃ (M : Sr, Ba) for the Study of Intrinsic Hydride-Ion Conduction

“…Because we generate H-radicals by flowing H 2 over a hot W filament, the filament temperature T f controls the amount of H-radicals in the reaction atmosphere, with higher T f generating more radicals. 31,32 Here, we compare the reaction atmosphere at T f = ambient temperature, 1200, and 1700 °C, generating H 2 reaction atmospheres with no Hradical (H 0 ), low amount of H-radials (H low ), and high amount of H-radicals (H high ), respectively.…”

“…Next, we discuss the effects of H-radicals on the product film integrity by comparing the surfaces of the BaLiH 3 (100) thin films grown on the MgAl 2 O 4 (100) substrate at T dep = 150 °C in molecular H 2 reaction atmospheres with different amounts of H-radicals. Because we generate H-radicals by flowing H 2 over a hot W filament, the filament temperature T f controls the amount of H-radicals in the reaction atmosphere, with higher T f generating more radicals. , Here, we compare the reaction atmosphere at T f = ambient temperature, 1200, and 1700 °C, generating H 2 reaction atmospheres with no H-radical ( H 0 ), low amount of H-radials ( H low ), and high amount of H-radicals ( H high ), respectively.…”

Epitaxial Thin Film Growth of Perovskite Hydrides MLiH₃ (M : Sr, Ba) for the Study of Intrinsic Hydride-Ion Conduction

“…To improve the Si yield of the Siemens method, we have focused on hydrogen radicals (H-radicals) as a reducing agent [5,6]. H-radicals have been used in some chemical vapor deposition processes, including those leading to the deposition of amorphous or polycrystalline Si [7,8] and diamond thin films [9,10].…”

“…The distance between the generating and detection points was 50 cm, which implies an availability of H-radical for the Siemens method. In a previous study, we successfully generated and transported H-radicals using a filament method and reduced SiCl 4 with the remotely supplied H-radicals under relatively low pressures of approximately 1-10 kPa [6]. The density of hydrogen radical should decrease with an increase of pressure due to three-body recombination (H + H + M (H 2 ) → H 2 + M (H 2 )) [12,13].…”

Effective silicon production from SiCl₄ source using hydrogen radicals generated and transported at atmospheric pressure

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