Very low bulk and surface recombination in oxidized silicon wafers

Mark J. Kerr; Andres Cuevas

doi:10.1088/0268-1242/17/1/306

Very low bulk and surface recombination in oxidized silicon wafers

Mark J. Kerr^*
, Andres Cuevas

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

258 Citations (Scopus)

Abstract

Bulk and surface processes determine the recombination rate in crystalline silicon wafers. In this paper we report effective lifetime measurements for a variety of commercially available float-zone silicon wafers that have been carefully passivated using alnealed silicon oxide. Different substrate resistivities have been explored, including both p-type (boron) and n-type (phosphorus) dopants. Record high effective lifetimes of 29 and 32 ms have been measured for 90 Ω cm n-type and 150 Ω cm p-type silicon wafers, respectively. The dependence of the effective lifetime has been measured for excess carrier densities in the range of 10¹²-10¹⁷ cm^-3. These results demonstrate that very low bulk and surface recombination rates can be maintained during high-temperature oxidation (1050°C) by carefully optimizing the processing conditions.

Original language	English
Pages (from-to)	35-38
Number of pages	4
Journal	Semiconductor Science and Technology
Volume	17
Issue number	1
DOIs	https://doi.org/10.1088/0268-1242/17/1/306
Publication status	Published - Jan 2002

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AB - Bulk and surface processes determine the recombination rate in crystalline silicon wafers. In this paper we report effective lifetime measurements for a variety of commercially available float-zone silicon wafers that have been carefully passivated using alnealed silicon oxide. Different substrate resistivities have been explored, including both p-type (boron) and n-type (phosphorus) dopants. Record high effective lifetimes of 29 and 32 ms have been measured for 90 Ω cm n-type and 150 Ω cm p-type silicon wafers, respectively. The dependence of the effective lifetime has been measured for excess carrier densities in the range of 1012-1017 cm-3. These results demonstrate that very low bulk and surface recombination rates can be maintained during high-temperature oxidation (1050°C) by carefully optimizing the processing conditions.

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Very low bulk and surface recombination in oxidized silicon wafers

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