Norah O'Farrell scite author profile

Abstract:In this review, we describe the synthesis, physical properties, surface functionalization, and biological applications of silicon nanoparticles (also known as quantum dots). We compare them against current technologies, such as fl uorescent organic dyes and heavy metal chalcogenide-based quantum dots. In particular, we examine the many different methods that can be used to both create and modify these nanoparticles and the advantages they may have over current technologies that have stimulated research into designing silicon nanoparticles for in vitro and in vivo applications.

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Evaporation and deposition of alkyl-capped silicon nanocrystals in ultrahigh vacuum

Chao

Šiller

Krishnamurthy

et al. 2007

Nature Nanotech

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Nanocrystals are under active investigation because of their interesting size-dependent properties and potential applications. Silicon nanocrystals have been studied for possible uses in optoelectronics, and may be relevant to the understanding of natural processes such as lightning strikes. Gas-phase methods can be used to prepare nanocrystals, and mass spectrometric techniques have been used to analyse Au and CdSe clusters. However, it is difficult to study nanocrystals by such methods unless they are synthesized in the gas phase. In particular, pre-prepared nanocrystals are generally difficult to sublime without decomposition. Here we report the observation that films of alkyl-capped silicon nanocrystals evaporate upon heating in ultrahigh vacuum at 200 degrees C, and the vapour of intact nanocrystals can be collected on a variety of solid substrates. This effect may be useful for the controlled preparation of new quantum-confined silicon structures and could facilitate their mass spectroscopic study and size-selection.

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Self-Organisation of Self-Complementary DNA Molecules Covalently Attached to Silicon Surfaces

Carlsson¹,

González²,

O'Farrell³

et al. 2011

sci adv mat

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(Invited) Recent Advances in Functionalisation of Silicon Nanocrystals and Ultradispersed Nanodiamonds

Šiller¹,

Coxon²,

Astuti³

et al. 2011

Meet. Abstr.

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DNA-modified silicon nanocrystals studied by X-ray luminescence and X-ray absorption spectroscopies: Observation of a strong infra-red luminescence band

Coxon

Newman

Hunt

et al. 2012

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Norah O'Farrell

Silicon nanoparticles: applications in cell biology and medicine

Evaporation and deposition of alkyl-capped silicon nanocrystals in ultrahigh vacuum

Self-Organisation of Self-Complementary DNA Molecules Covalently Attached to Silicon Surfaces

(Invited) Recent Advances in Functionalisation of Silicon Nanocrystals and Ultradispersed Nanodiamonds

DNA-modified silicon nanocrystals studied by X-ray luminescence and X-ray absorption spectroscopies: Observation of a strong infra-red luminescence band

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