Probing the formation of silicon nano-crystals (Si-ncs) using variable energy positron annihilation spectroscopy

A.P. Knights; J.D.B. Bradley; O. Hulko; D.V. Stevanovic; C.J. Edwards; A. Kallis; P.G. Coleman; I.F. Crowe; M.P. Halsall; R.M. Gwilliam

doi:10.1088/1742-6596/262/1/012031

Probing the formation of silicon nano-crystals (Si-ncs) using variable energy positron annihilation spectroscopy

A.P. Knights, J.D.B. Bradley, O. Hulko, D.V. Stevanovic, C.J. Edwards, A. Kallis, P.G. Coleman, I.F. Crowe, M.P. Halsall, R.M. Gwilliam

EEE - Academic & Research

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

Abstract

We describe preliminary results from studies of the formation of silicon nano-crystals (Si-ncs) embedded in stoichiometric, thermally grown SiO 2 using Variable Energy Positron Annihilation Spectroscopy (VEPAS). We show that the VEPAS technique is able to monitor the introduction of structural damage. In SiO 2 through the high dose Si+ ion implantation required to introduce excess silicon as a precursor to Si-nc formation. VEPAS is also able to characterize the rate of the removal of this damage with high temperature annealing, showing strong correlation with photoluminescence. Finally, VEPAS is shown to be able to selectively probe the interface between Si-ncs and the host oxide. Introduction of hydrogen at these interfaces suppresses the trapping of positrons at the interfaces.

Original language	English
Article number	012031
Pages (from-to)	1-4
Number of pages	4
Journal	Journal of Physics: Conference Series
Volume	262
Issue number	1
DOIs	https://doi.org/10.1088/1742-6596/262/1/012031
Publication status	Published - 2011

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Knights, A. P., Bradley, J. D. B., Hulko, O., Stevanovic, D. V., Edwards, C. J., Kallis, A., Coleman, P. G., Crowe, I. F., Halsall, M. P., & Gwilliam, R. M. (2011). Probing the formation of silicon nano-crystals (Si-ncs) using variable energy positron annihilation spectroscopy. Journal of Physics: Conference Series, 262(1), 1-4. Article 012031. https://doi.org/10.1088/1742-6596/262/1/012031

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abstract = "We describe preliminary results from studies of the formation of silicon nano-crystals (Si-ncs) embedded in stoichiometric, thermally grown SiO 2 using Variable Energy Positron Annihilation Spectroscopy (VEPAS). We show that the VEPAS technique is able to monitor the introduction of structural damage. In SiO 2 through the high dose Si+ ion implantation required to introduce excess silicon as a precursor to Si-nc formation. VEPAS is also able to characterize the rate of the removal of this damage with high temperature annealing, showing strong correlation with photoluminescence. Finally, VEPAS is shown to be able to selectively probe the interface between Si-ncs and the host oxide. Introduction of hydrogen at these interfaces suppresses the trapping of positrons at the interfaces.",

author = "A.P. Knights and J.D.B. Bradley and O. Hulko and D.V. Stevanovic and C.J. Edwards and A. Kallis and P.G. Coleman and I.F. Crowe and M.P. Halsall and R.M. Gwilliam",

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AU - Knights, A.P.

AU - Bradley, J.D.B.

AU - Hulko, O.

AU - Stevanovic, D.V.

AU - Edwards, C.J.

AU - Kallis, A.

AU - Coleman, P.G.

AU - Crowe, I.F.

AU - Halsall, M.P.

AU - Gwilliam, R.M.

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AB - We describe preliminary results from studies of the formation of silicon nano-crystals (Si-ncs) embedded in stoichiometric, thermally grown SiO 2 using Variable Energy Positron Annihilation Spectroscopy (VEPAS). We show that the VEPAS technique is able to monitor the introduction of structural damage. In SiO 2 through the high dose Si+ ion implantation required to introduce excess silicon as a precursor to Si-nc formation. VEPAS is also able to characterize the rate of the removal of this damage with high temperature annealing, showing strong correlation with photoluminescence. Finally, VEPAS is shown to be able to selectively probe the interface between Si-ncs and the host oxide. Introduction of hydrogen at these interfaces suppresses the trapping of positrons at the interfaces.

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Probing the formation of silicon nano-crystals (Si-ncs) using variable energy positron annihilation spectroscopy

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