Characterisation of active dopants in boron-doped self-assembled silicon nanostructures

Binesh Puthen Veettil; Tian Zhang; Robert Lee Chin; Xuguang Jia; Keita Nomoto; Terry Chien-Jen Yang; Ziyun Lin; Lingfeng Wu; Reyifate Rexiati; Sebastian Gutsch; Gavin Conibeer; Ivan Perez-Würfl

doi:10.1063/1.4964742

Characterisation of active dopants in boron-doped self-assembled silicon nanostructures

Binesh Puthen Veettil^*, Tian Zhang, Robert Lee Chin, Xuguang Jia, Keita Nomoto, Terry Chien-Jen Yang, Ziyun Lin, Lingfeng Wu, Reyifate Rexiati, Sebastian Gutsch, Gavin Conibeer, Ivan Perez-Würfl

^*Corresponding author for this work

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

8 Citations (Scopus)

Abstract

Doping of silicon nanocrystals has become an important topic due to its potential to enable the fabrication of environmentally friendly and cost-effective optoelectronic and photovoltaic devices. However, doping of silicon nanocrystals has been proven difficult and most of the structural and electronic properties are still not well understood. In this work, the intrinsic and boron-doped self-assembled silicon nanocrystals were prepared and mainly characterised by the transient current method to study the behaviour of charge carriers in these materials. Our experiments quantified the amount of electrically active boron dopants that contributed to charge transport. From this, the boron doping efficiency in the nanocrystal superlattice was estimated.

Original language	English
Article number	153106
Pages (from-to)	1-4
Number of pages	4
Journal	Applied Physics Letters
Volume	109
Issue number	15
Early online date	11 Oct 2016
DOIs	https://doi.org/10.1063/1.4964742
Publication status	Published - Oct 2016
Externally published	Yes

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abstract = "Doping of silicon nanocrystals has become an important topic due to its potential to enable the fabrication of environmentally friendly and cost-effective optoelectronic and photovoltaic devices. However, doping of silicon nanocrystals has been proven difficult and most of the structural and electronic properties are still not well understood. In this work, the intrinsic and boron-doped self-assembled silicon nanocrystals were prepared and mainly characterised by the transient current method to study the behaviour of charge carriers in these materials. Our experiments quantified the amount of electrically active boron dopants that contributed to charge transport. From this, the boron doping efficiency in the nanocrystal superlattice was estimated.",

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AU - Puthen Veettil, Binesh

AU - Zhang, Tian

AU - Chin, Robert Lee

AU - Jia, Xuguang

AU - Nomoto, Keita

AU - Yang, Terry Chien-Jen

AU - Lin, Ziyun

AU - Wu, Lingfeng

AU - Rexiati, Reyifate

AU - Gutsch, Sebastian

AU - Conibeer, Gavin

AU - Perez-Würfl, Ivan

PY - 2016/10

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AB - Doping of silicon nanocrystals has become an important topic due to its potential to enable the fabrication of environmentally friendly and cost-effective optoelectronic and photovoltaic devices. However, doping of silicon nanocrystals has been proven difficult and most of the structural and electronic properties are still not well understood. In this work, the intrinsic and boron-doped self-assembled silicon nanocrystals were prepared and mainly characterised by the transient current method to study the behaviour of charge carriers in these materials. Our experiments quantified the amount of electrically active boron dopants that contributed to charge transport. From this, the boron doping efficiency in the nanocrystal superlattice was estimated.

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Characterisation of active dopants in boron-doped self-assembled silicon nanostructures

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