硅-i-n光电二极管技术中的化学动态抛光问题

M. Kukurudziak
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The optimal polishing depth of the front side of the substrate is 20–25 microns (if we take into account the etching of the reverse side – 35–40 microns in total), the reverse side before boron diffusion – 10–15 microns. The main factors that affect the appearance of defects during polishing have been elucidated. Thus, when the concentration of the components of the polisher medicine for the СDP changes significantly, its properties change significantly – the polisher can become selective, since its composition is similar to the selective polisher of Dash. In order to avoid this, it is necessary to carry out incoming control of component acids. If there are inclusions of another phase in the volume of ingots and, accordingly, on the surface of the substrates, clusters of point microdefects of different sizes, or defects acquired in the process of mechanical processing, there is unevenness of etching and violation of planar parallelism. 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引用次数: 4

摘要

在制备p-i-n硅光电二极管衬底的过程中,观察了化学动力学抛光的存在和蚀刻深度对光电二极管电学参数的影响。抛光操作的质量也会影响样品的光学和光电参数。这些影响需要详细的研究。本文研究了化学动态抛光过程中硅磷钛基fd工艺中缺陷的形成,确定了衬底正面和背面抛光的最佳模式。蚀刻混合物的组成为HNO3:HF:CH3COOH = 9:2:4。CDP对暗流有显著影响。该操作应在热处理之前和反向扩散之前进行,以获得最小的暗电流值。衬底正面的最佳抛光深度为20-25微米(如果考虑到背面的蚀刻-总共35-40微米),硼扩散前的背面- 10-15微米。阐述了抛光过程中影响缺陷出现的主要因素。因此,当用于СDP的抛光药的成分浓度发生显著变化时,其性质也会发生显著变化——抛光剂可以具有选择性,因为其成分类似于Dash的选择性抛光剂。为了避免这种情况,有必要对组分酸进行进料控制。如果在铸锭的体积中存在另一相的夹杂物,相应地在基材表面存在不同尺寸的点微缺陷簇,或在机械加工过程中获得的缺陷,则存在蚀刻的不均匀性和违反平面平行性。在与抛光机一起高速旋转的槽中,耗尽的溶液层可能没有时间在基板表面附近形成或被液体流动从表面“折断”,这导致板的选择性蚀刻。这种效应可以表现在所谓的基板的纹理上,它增加了暗电流的水平,降低了灵敏度。对于СDP的反面,在硼扩散之前,正面用耐化学清漆保护。如果清漆厚度不足,则可能在保护层中形成穿孔。在这种情况下,在抛光操作过程中,草本物质在清漆层下流动,并蚀刻增亮或遮盖氧化物。为了防止上述现象,我们建议涂两层中间干燥的清漆。在抛光过程结束之前,不允许将带有草药剂的板材从容器中取出,因为草药剂的液滴留在基材表面。在有液滴的地方,剧烈的反应开始于硝酸蒸气的释放和强烈的加热。这种反应的结果是,这些板被强烈地蚀刻,并且在它们的表面形成斑点、凹坑和黑色的氧化硅涂层。如果出现所描述的损坏表面,并且基材不适合进一步的技术操作,则有必要通过机械方法去除表面层,并再次执行СDP。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Problems of chemical-dynamic polishing in the technology of silicon p-i-n photodiodes
During the preparation of silicon substrates for the manufacture of silicon p-i-n photodiodes, the effect of the presence of chemical-dynamic polishing and the depth of etching on the electrical parameters of the FD was observed. The quality of the polishing operation also affected the optical and photoelectric parameters of the samples. These effects required detailed study. The article investigates defect formation during the operation of chemical-dynamic polishing in the technology of silicon p-i-n FDs and determines the optimal modes of polishing the front and back sides of the substrates. The composition of the etching mixture was HNO3:HF:CH3COOH = 9:2:4. CDP has a significant effect on dark currents. This operation should be performed before heat treatments and before diffusion in the reverse direction to obtain minimum values of the dark current. The optimal polishing depth of the front side of the substrate is 20–25 microns (if we take into account the etching of the reverse side – 35–40 microns in total), the reverse side before boron diffusion – 10–15 microns. The main factors that affect the appearance of defects during polishing have been elucidated. Thus, when the concentration of the components of the polisher medicine for the СDP changes significantly, its properties change significantly – the polisher can become selective, since its composition is similar to the selective polisher of Dash. In order to avoid this, it is necessary to carry out incoming control of component acids. If there are inclusions of another phase in the volume of ingots and, accordingly, on the surface of the substrates, clusters of point microdefects of different sizes, or defects acquired in the process of mechanical processing, there is unevenness of etching and violation of planar parallelism. At a high speed of rotation of the tank with the polisher, the depleted layer of the solution may not have time to form near the surface of the substrates or be “broken off” from the surface by the flow of liquid, which leads to selective etching of the plates. This effect can be manifested in the so-called texturing of substrates, which increases the level of dark current and reduces sensitivity. In the case of the reverse side of the СDP, before boron diffusion, the front side is protected with a chemically resistant varnish. If the thickness of the varnish is insufficient, the formation of punctures in the protective layer is possible. In this case, during the polishing operation, the herbaceous material flows under the varnish layer and the brightening or masking oxide is etched. To prevent the described phenomena, we recommend applying two layers of varnish with intermediate drying. Before the end of the polishing process, it is inadmissible to remove the plates from the container with the herbal agent, because drops of the herbal agent remain on the surface of the substrates. In places where there are drops, a violent reaction begins with the release of nitric acid vapors and strong heating. As a result of this reaction, the plates are strongly etched and spots, depressions-craters and black coating of silicon oxide are formed on their surface. In the event of the appearance of the described damaged surface and the unsuitability of the substrates for further technological operations, it is necessary to remove the surface layers by mechanical methods and again to perform the СDP.
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