Highly conductive boron doped micro/nanocrystalline silicon thin films deposited by VHF-PECVD for solar cell applications

AFM images of boron doped micro/nanocrystalline silicon films at different diborane gas flow. [Display omitted] •High deposition rate of 10Å/s was achieved for boron doped silicon films.•Wide range of optical band gap from 1.32eV to 1.84eV observed for the deposited films. Boron doped hydrogenated m...

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Published in:Journal of alloys and compounds 2015-09, Vol.643, p.94-99
Main Authors: Juneja, Sucheta, Sudhakar, S., Gope, Jhuma, Lodhi, Kalpana, Sharma, Mansi, kumar, Sushil
Format: Article
Language:English
Subjects:
AFM
Conductivity
Deposition
Diborane
Nanocrystals
Photoconductivity and photovoltaics
Resistivity
Silicon films
Solar cells
Thin films
Vapor deposition
X-ray diffraction
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container_title Journal of alloys and compounds
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creator Juneja, Sucheta
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description AFM images of boron doped micro/nanocrystalline silicon films at different diborane gas flow. [Display omitted] •High deposition rate of 10Å/s was achieved for boron doped silicon films.•Wide range of optical band gap from 1.32eV to 1.84eV observed for the deposited films. Boron doped hydrogenated micro/nanocrystalline silicon (μc/nc-Si:H) thin films have been deposited by plasma enhanced chemical vapor deposition technique (PECVD) using silane (SiH4) diluted in argon. Diborane (B2H6) was used as the dopant gas and deposition was carried out at substrate temperature of 200°C. The diborane flow (FB) varied in the range 0.00–0.30. Here, we report the effects of B2H6 doping on electronic, optical and structural properties of hydrogenated micro/nanocrystalline silicon films. The structural properties were analyzed by atomic force microscopy (AFM) and X-ray diffraction (XRD). The doped micro/nano crystalline silicon films presented a crystallographic orientation preferentially in the (111) and (220) plane. We resolve the deposition parameters that lead to the formation of p-type micro/nanocrystalline silicon thin films with very high value of conductivity and lower optical band gap. Correlations between structural and electrical properties were also studied. Based on temperature dependent conductivity measurements, it has been observed that the room temperature dark conductivity varies in the range 1.45×10−4Ω−1cm−1 to 2.02Ω−1cm−1 for the B-doped films. Meanwhile, the corresponding value of activation energies decreased to 0.06eV for the B-doped films, which indicates the doped μc/nc-Si films with high conductivity can be achieved and these films prove to be a very good candidate for application in amorphous and micro/nano crystalline silicon solar cells as a p-type window layer.
doi_str_mv 10.1016/j.jallcom.2015.04.077
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[Display omitted] •High deposition rate of 10Å/s was achieved for boron doped silicon films.•Wide range of optical band gap from 1.32eV to 1.84eV observed for the deposited films. Boron doped hydrogenated micro/nanocrystalline silicon (μc/nc-Si:H) thin films have been deposited by plasma enhanced chemical vapor deposition technique (PECVD) using silane (SiH4) diluted in argon. Diborane (B2H6) was used as the dopant gas and deposition was carried out at substrate temperature of 200°C. The diborane flow (FB) varied in the range 0.00–0.30. Here, we report the effects of B2H6 doping on electronic, optical and structural properties of hydrogenated micro/nanocrystalline silicon films. The structural properties were analyzed by atomic force microscopy (AFM) and X-ray diffraction (XRD). The doped micro/nano crystalline silicon films presented a crystallographic orientation preferentially in the (111) and (220) plane. 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We resolve the deposition parameters that lead to the formation of p-type micro/nanocrystalline silicon thin films with very high value of conductivity and lower optical band gap. Correlations between structural and electrical properties were also studied. Based on temperature dependent conductivity measurements, it has been observed that the room temperature dark conductivity varies in the range 1.45×10−4Ω−1cm−1 to 2.02Ω−1cm−1 for the B-doped films. Meanwhile, the corresponding value of activation energies decreased to 0.06eV for the B-doped films, which indicates the doped μc/nc-Si films with high conductivity can be achieved and these films prove to be a very good candidate for application in amorphous and micro/nano crystalline silicon solar cells as a p-type window layer.</abstract><pub>Elsevier B.V</pub><doi>10.1016/j.jallcom.2015.04.077</doi><tpages>6</tpages></addata></record>
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subjects AFM
Conductivity
Deposition
Diborane
Nanocrystals
Photoconductivity and photovoltaics
Resistivity
Silicon films
Solar cells
Thin films
Vapor deposition
X-ray diffraction
title Highly conductive boron doped micro/nanocrystalline silicon thin films deposited by VHF-PECVD for solar cell applications
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