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微量硼掺杂氢化非晶硅薄膜光电导性能研究 被引量:1

Influence of Light-doped Boron on Optoelectronic Properties of a-Si∶H Films
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摘要 采用射频磁控溅射的方法制备了微量硼掺杂氢化非晶硅薄膜,对样品的光电导性能进行了研究。结果表明,不同的硼掺杂量下,氢化非晶硅薄膜透过率随掺杂量的增加而变大,透过率曲线截止边红移;吸收系数随着硼掺杂量的增加而增大;薄膜的折射率随着波长的增加而下降,同一波长下随着掺杂量的增加而增大,在500nm波长处折射率达到4.2以上,最大到4.6;薄膜的交流电阻率在微量硼掺杂下随着硼掺杂量的增加先减小后增大。 Light-doped hydrogenated amorphous silicon (a-Si : H) thin films were prepared by RF magnetron sputtering method and the optoelectronic properties of a-Si -" H films with different doping amount were studied. The results show that with the increase of doping amount of Boron, both the transmission of a-Si " H thin film and the optical absorption coefficient increase and the absorption edge shifts to long wavelength area. The refractive index of a-Si ~ H thin film decreases as the wavelength increase and increases as the doping amount increase, and it can be over 4.2 at the wavelength of 500 nm. The AC conductivity decreases and then increases as the doping amount increases under light-doped area.
作者 王陆一 蒋向东 石兵
机构地区 电子科技大学光电信息学院
出处 《半导体光电》 CAS CSCD 北大核心 2013年第1期95-97,共3页 Semiconductor Optoelectronics
基金 四川省应用基础项目(07JY029-087)
关键词 硼掺杂 射频磁控溅射 氢化非晶硅 吸收系数 折射率 light-doped Boron RF magnetron sputtering method a-Si : H film optical absorption coefficient refractive index
分类号 O756 [理学—晶体学]
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共引文献6

同被引文献11

  • 1Kazunori Koga,Takeaki Matsunaga,William Makoto Nakamura,Kenta Nakahara,Yuuki Kawashima,Giichiro Uchida,Kunihiro Kamataki,Naho Itagaki,Masaharu Shiratani.Comparison between silicon thin films with and without incorporating crystalline silicon nanoparticles into the film[J].Thin Solid Films.2011(20) 被引量:1
  • 2Bryan D. Vogt,Barry O’Brien,David R. Allee,Doug Loy,Bulent Akgun,Sushil K. Satija.Distribution of hydrogen in low temperature passivated amorphous silicon (a-Si:H) films from neutron reflectivity[J].Journal of Non-Crystalline Solids.2010(3) 被引量:1
  • 3D. Girginoudi,C. Tsiarapas,N. Georgoulas.Properties of a-Si:H films deposited by RF magnetron sputtering at 95<ce:hsp sp="0.25"/>°C[J].Applied Surface Science.2010(9) 被引量:1
  • 4Amartya Chowdhury,Sumita Mukhopadhyay,Swati Ray.Fabrication of low defect density nanocrystalline silicon absorber layer and its application in thin-film solar cell[J].Thin Solid Films.2008(20) 被引量:1
  • 5J.K. Rath,M. de Jong,R.E.I. Schropp.Low temperature (<<ce:hsp sp="0.10"/>100 °C) fabrication of thin film silicon solar cells by HWCVD[J].Thin Solid Films.2007(5) 被引量:1
  • 6T.L. Alford,P.K. Shetty,N.D. Theodore,N. Tile,D. Adams,J.W. Mayer.Nanocrystalline Si formation in the a-Si/Al system on polyimide and silicon dioxide substrates[J].Thin Solid Films.2007(12) 被引量:1
  • 7Yoshihiro Hamakawa.Thirty years trajectory of amorphous and nanocrystalline silicon materials and their optoelectronic devices[J].Journal of Non-Crystalline Solids.2006(9) 被引量:1
  • 8Shin-Ichi Muramatsu,Yasushi Minagawa,Fumihito Oka,Tadashi Sasaki,Yoshiaki Yazawa.Thin-film c-Si solar cells prepared by metal-induced crystallization[J].Solar Energy Materials and Solar Cells.2002(1) 被引量:1
  • 9O Vetterl,F Finger,R Carius,P Hapke,L Houben,O Kluth,A Lambertz,A Mück,B Rech,H Wagner.Intrinsic microcrystalline silicon: A new material for photovoltaics[J].Solar Energy Materials and Solar Cells.2000(1) 被引量:1
  • 10Akihisa Matsuda.Growth mechanism of microcrystalline silicon obtained from reactive plasmas[J].Thin Solid Films.1999(1) 被引量:1

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