n the modern production of semiconductor devices and integrated circuits, epitaxial compositions are widely used: sili-con single-layer epitaxial structures, silicon inverted epitaxial structures and silicon structures with dielectric insulation. An urgent task is a thorough study of the defects of such structures and technological factors that significantly affect their quality at various stages of the manufacturing process.The purpose of the work is to study the dependence of the density of defects in the substrate and the built-up layer of silicon epitaxial compositions on technological factors and to develop a system that has increased resistance to electromigra-tion and at the same time prevents erosion of silicon in the contact windows.Substrates with a thickness of 260 μm with a crystallographic surface orientation made of single crystals of dislocation-free silicon with a resistivity of 10-50 Оm∙m were taken for the study. Defects in the structure were detected by selective etching and investigated using metallographic and scanning electron microscopes. Processing of the working side of the surface was also carried out: chemical-mechanical polishing with removal of a layer 1-2 microns and 20 microns thick; mechanical pol-ishing with diamond paste with a grain size of 1.0 μm and 5 μm. The processing of the non-working side of the substrates was also different: chemical-mechanical polishing, grinding, hetering -grinding with a free abrasive followed by shallow mechan-ical polishing. After growth, the epitaxial compositions were polished and grinded by chemical-mechanical polishing on both sides to a thickness of 80 μm on the substrate side and 170-180 μm on the side of the built-up layer.During research, the substrates were exposed to various technological factors. The obtained experimental results allow us to conclude that to produce semiconductor device structures based on epitaxial compositions with a low density of disloca-tions, it is necessary to use dislocation-free substrates that do not contain bands of A-type microdefects. All other things being equal, the best quality of epitaxial compositions is achieved by applying thorough chemical-mechanical polishing of the sub-strate on its working side and heterogenization on the reverse side.
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