两步离子注入用于在300℃下激活硅中的硼原子

2018 25th International Workshop on Active-Matrix Flatpanel Displays and Devices (AM-FPD) Pub Date : 2018-07-01 DOI:10.23919/AM-FPD.2018.8437361

T. Nagao, T. Uehara, K. Yasuta, Y. Inouchi, J. Tatemichi, M. Hasumi, T. Sameshima

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引用次数: 1

摘要

在室温(RT)下，先注入1.0×10-15-cm−2B+，再注入1.5xl016-cm−2 H+ (8kev)或1.0xl014-cm−2 Ar+ (70 keV)，再注入晶体硅。第一次注入H+或Ar+促进了晶体体积比的降低和晶体缺陷的产生。随后，在300℃下加热30 min后，H+和Ar+注入的薄片电阻率分别降至520和890 Ω/sq。退火后300℃时，片材电阻率下降，说明首次H+或Ar+注入导致晶体缺陷的形成，降低了硼原子从间隙位向晶格位移动的活化能，实现了低温载流子生成。

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Two-Step Ion Implantation used for Activating Boron Atoms in Silicon at 300°C

Ion implantation of 1.5xl0¹⁶-cm⁻² H⁺ at 8 keV or 1.0xl0¹⁴-cm⁻² Ar⁺ at 70 keV was carried out at room temperature (RT) to crystalline silicon in advance of ion implantation of 1.0×10-15-cm⁻²B⁺ at RT. Decrease in the crystalline volume ratio and generation of crystalline defects were promoted by the first H⁺ or Ar⁺ implantation. Subsequently post heating at 300°C for 30 min decreased the sheet resistivity to 520 and 890 Ω/sq in the cases of the H⁺ and Ar⁺ implantation, respectively. The decreases in the sheet resistivity by 300°C post annealing is interpreted that formation of crystalline defects by the first H⁺ or Ar⁺ implantation decreased the activation energy for moving boron atoms from the interstitial to lattice sites and achieved carrier generation at the low temperature.

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来源期刊

2018 25th International Workshop on Active-Matrix Flatpanel Displays and Devices (AM-FPD)

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