1996
DOI: 10.1103/physrevb.53.4415
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Hydrogen solubility and network stability in amorphous silicon

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Cited by 80 publications
(67 citation statements)
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“…This concentration is about the same, 3%, for which large dose H ϩ implantations in a-Si give rise to structural modifications and the appearance of the 2100 cm Ϫ1 band attributed to Si-H clustering. 17 In a previous paper, we reported that plasma hydrogenation of ion implanted Si to H concentrations exceeding ϳ6% gives rise to the formation of voids in a near subsurface region and the appearance of the 2100 cm Ϫ1 band. 18 Over this [H], the a-Si structure is modified and solid phase crystallization does not occur.…”
Section: Resultsmentioning
confidence: 99%
See 1 more Smart Citation
“…This concentration is about the same, 3%, for which large dose H ϩ implantations in a-Si give rise to structural modifications and the appearance of the 2100 cm Ϫ1 band attributed to Si-H clustering. 17 In a previous paper, we reported that plasma hydrogenation of ion implanted Si to H concentrations exceeding ϳ6% gives rise to the formation of voids in a near subsurface region and the appearance of the 2100 cm Ϫ1 band. 18 Over this [H], the a-Si structure is modified and solid phase crystallization does not occur.…”
Section: Resultsmentioning
confidence: 99%
“…Hydrogen ion implantations to [H] > 3 atom % also gives rise to the 2100 cm Ϫ1 band attributed to Si-H clustering. 17 High density H-plasma exposure, radio frequency (rf) or electron cyclotron resonance (ECR), of amorphized ion implanted Si leads also to the appearance of an additional band at 2080 cm Ϫ1 when [H] > 6 atom % and solid phase epitaxy does not occur when this threshold value is exceeded. 18 Apparently, the presence of H in the plasma, because it is deliberately introduced or because it is released from the fragmented Si precursors, eg., silane, might lead to structural modifications and internal microcavities or voids preventing solid phase crystallization.…”
mentioning
confidence: 99%
“…16,[21][22][23] In the D diffusion and plasma/monoatomic hydrogen treatment, hydrogen solubility of 1-3% has been observed. 22,24 At such low concentration levels, the weak Si-Si bonds and dangling bonds seem to provide sites for H incorporation without dilation of the silicon network; the solubility depends on the microstructure which, in turn, depends on the deposition conditions for the film. In the ion implantation process, the hydrogen incorporation proceeds simultaneously with defect creation, hence a higher H concentration can be achieved than the initial H concentration.…”
Section: A Tritium Solubilitymentioning
confidence: 99%
“…Since it is reported that some of hydrogen implanted in Si at room temperature can be desorbed thermally below 500 K without significant annealing effect on the defects in silicon, 7,10,11) we have made an additional experiment to see the change in the relative reflectance by hydrogen release as follows. After the H þ irradiation with the fluence of 1 Â 10 18 cm À2 , the irradiated silicon sample was gradually heated up to 423 K. After the temperature was reached at 423 K, the change of the relative reflectance was monitored at the fixed temperature at 423 K. Figure 4 shows the changes of the relative reflectance at 370, 500 and 700 nm with heating time.…”
Section: Changes In Optical Reflection Of Siliconmentioning
confidence: 99%