2000
DOI: 10.1116/1.591261
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Reduction of sidewall defect induced leakage currents by the use of nitrided field oxides in silicon selective epitaxial growth isolation for advanced ultralarge scale integration

Abstract: Defects in the near sidewall region in selective epitaxial growth of silicon have prevented its widespread use as a viable dielectric isolation technology. The main cause of these defects has been demonstrated to be thermal stress due to mismatch in the coefficient of thermal expansion between silicon and silicon dioxide. This article presents the detailed electrical characterization of these sidewall defects using P+/N junction diodes fabricated using silicon dioxide and thermally nitrided silicon dioxide as … Show more

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Cited by 10 publications
(2 citation statements)
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“…Under high temperature and in pure ammonia gas, oxygen atoms in SiO2 layer are replaced by nitrogen atoms forming an oxynitride layer [8]. The nitrogen concentration decreases with the distance from the exposed SiO2 surface [8]- [10]. The incorporation of N can reduce dangling bonds and mechanical stress, resulting in a passivated surface [11].…”
Section: Id11/2 Versus Vg Characteristicsmentioning
confidence: 99%
“…Under high temperature and in pure ammonia gas, oxygen atoms in SiO2 layer are replaced by nitrogen atoms forming an oxynitride layer [8]. The nitrogen concentration decreases with the distance from the exposed SiO2 surface [8]- [10]. The incorporation of N can reduce dangling bonds and mechanical stress, resulting in a passivated surface [11].…”
Section: Id11/2 Versus Vg Characteristicsmentioning
confidence: 99%
“…The ratio of silicon thickness, x s , converted to resulting oxide thickness, x ox , is proportional to their respective densities: x s =0A6x ox . Thermal oxidation of silicon generates compressive stress in the silicon dioxide film, because silicon dioxide molecules take more volume than silicon atoms, and there is a mismatch between the CTE (coefficients of thermal expansion) of silicon (CTE: 2.6xlO" 6°C1 ) and silicon dioxide (CTE: OJxKrHr 1 ) [24]. Therefore, after thermal oxidation, an anneal process is needed to minimize the compressive stress.…”
Section: Oxidation Of Siliconmentioning
confidence: 99%