用于中子嬗变掺杂的电沉积硅薄膜

Journal of The Electrochemical Society Pub Date : 2024-06-13 DOI:10.1149/1945-7111/ad57f8

Isakov Andrey, S. Khvostov, Michael Laptev, Anastasia Khudorozhkova, O. Grishenkova, Yuriy Pavlovich Zaikov

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引用次数: 0

摘要

在 973 K 的恒电位条件下，从 KF-KCl (2:1) - 75 mol% KI - 1.5 mol% K2SiF6 熔体中将硅薄膜电沉积在玻璃碳 (GC) 上。合成的薄膜是单相的、连续的、致密的，不含任何杂质。在热中子通量密度为 1.81013 cm-2s-1 的 IVV-2M 研究反应堆（RR）中对样品进行了 7.7 小时的中子嬗变掺杂（NTD），以形成 31P 同位素掺杂剂。通过扫描电子显微镜与能量色散 X 射线光谱仪、X 射线衍射、质谱仪和伽马射线光谱仪对辐照样品进行了研究。由于气相色谱仪基质中存在钽痕迹，形成了 182Ta 同位素，这解释了辐照样品的最小显着比活度超出了一些。通过 NTD 过程形成的 31P 同位素得到了证实。31P 浓度和电阻率的计算值分别为 4.91016 cm-3 和 0.15 cm。

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Electrodeposition of Thin Silicon Films for Neutron Transmutation Doping

Thin silicon films were electrodeposited on glassy carbon (GC) from the KF-KCl (2:1) – 75 mol% KI – 1.5 mol% K2SiF6 melt under potentiostatic condition at 973 K. The synthesized films were single-phase, continuous, dense, and free from unwanted impurities. Neutron transmutation doping (NTD) of the samples was performed in the IVV-2M research reactor (RR) at a thermal neutron flux density of 1.81013 cm−2s−1 for 7.7 h in order to form the 31P isotope dopant. The irradiated samples were studied by scanning electron microscopy with energy-dispersive X-ray spectroscopy, X-ray diffraction, mass spectrometry, and gamma-ray spectrometry. Some excess of the minimum significant specific activity of the irradiated samples was explained by the formation of the 182Ta isotope due to the presence of tantalum traces in the GC substrate. The formation of the 31P isotope by the NTD process was confirmed. The calculated values of 31P concentration and electrical resistivity were 4.91016 cm–3 and 0.15 cm, respectively.

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Journal of The Electrochemical Society

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