Ronald A. Sinton scite author profile

A simple method for implementing the steady-state photoconductance technique for determining the minority-carrier lifetime of semiconductor materials is presented. Using a contactless instrument, the photoconductance is measured in a quasi-steady-state mode during a long, slow varying light pulse. This permits the use of simple electronics and light sources. Despite its simplicity, the technique is capable of determining very low minority carrier lifetimes and is applicable to a wide range of semiconductor materials. In addition, by analyzing this quasi-steady-state photoconductance as a function of incident light intensity, implicit current-voltage characteristic curves can be obtained for noncontacted silicon wafers and solar cell precursors in an expedient manner.

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Quasi-steady-state photoconductance, a new method for solar cell material and device characterization

Sinton¹,

1996

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Studies of diffused phosphorus emitters: saturation current, surface recombination velocity, and quantum efficiency

King

Sinton

Swanson

1990

IEEE Trans. Electron Devices

210

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Generalized analysis of quasi-steady-state and transient decay open circuit voltage measurements

Kerr

Cuevas

Sinton³

2002

146

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The current-voltage characteristics of solar cells and photodiodes can be determined by measuring the open-circuit voltage as a function of a slowly varying light intensity. This article presents a detailed theoretical analysis and interpretation of such quasi-steady-state V oc measurements (QssV oc). The ability of this analysis to accurately obtain the true steady-state device characteristics even in the case of high lifetime, high resistivity silicon devices is demonstrated experimentally. The QssV oc technique can be used to determine the minority carrier lifetime, and the new generalized analysis is required to do this accurately. An important outcome is that solar cell and diode device characteristics can be obtained from measurements of either the photoconductance or the open-circuit voltage, even using transient techniques.

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Recombination in highly injected silicon

Sinton¹,

Swanson²

1987

IEEE Trans. Electron Devices

144

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Ronald A. Sinton

Contactless determination of current–voltage characteristics and minority-carrier lifetimes in semiconductors from quasi-steady-state photoconductance data

Quasi-steady-state photoconductance, a new method for solar cell material and device characterization

Studies of diffused phosphorus emitters: saturation current, surface recombination velocity, and quantum efficiency

Generalized analysis of quasi-steady-state and transient decay open circuit voltage measurements

Recombination in highly injected silicon

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