Influence of the Doping Gas on the Axial Uniformity of the Growth Rate and the Electrical Properties of LPCVD In-Situ Doped Polysilicon Layers

D. Briand, M. Sarret, P. Duverneuil, T. Mohammed‐Brahim, K. Kis-Sion
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引用次数: 5

Abstract

We report in-situ doping of polysilicon grown on glass substrates by a LPCVD process. The growth rate, the resistivity and the dopant concentration of boron in-situ doped polysilicon layers are studied as a function of the deposition pressure and the dopant gas to silane mole ratio. A dependence of the axial uniformity on pressure and B 2 H 6 /SiH 4 mole ratio is put forward, and this effect appears to be very strong especially at high pressure. It is explained by a lowering of the diborane concentration in the gas mixture along the load, because of a different threshold for the thermal decomposition of diborane and silane. It is also put forward that a critical concentration of boron exists above which the growth rate is increasing. Improvements of the horizontal homogeneity are obtained by varying the total gas flow rate.
掺杂气体对LPCVD原位掺杂多晶硅层生长速率轴向均匀性和电性能的影响
我们报道了通过LPCVD工艺在玻璃衬底上生长的多晶硅的原位掺杂。研究了硼原位掺杂多晶硅层的生长速率、电阻率和掺杂浓度随沉积压力和掺杂气硅摩尔比的变化规律。提出了轴向均匀性与压力和b2h6 / sih4摩尔比的关系,这种影响尤其在高压下表现得非常明显。这可以解释为由于二硼烷和硅烷的热分解阈值不同,气体混合物中的二硼烷浓度沿负载降低。还提出了硼存在一个临界浓度,超过该浓度生长速率增大。通过改变总气量,可以改善水平均匀性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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