Alkyl Passivation and Amphiphilic Polymer Coating of Silicon Nanocrystals for Diagnostic Imaging
✍ Scribed by Colin M. Hessel; Michael R. Rasch; Jose L. Hueso; Brian W. Goodfellow; Vahid A. Akhavan; Priyaveena Puvanakrishnan; James W. Tunnel; Brian A. Korgel
- Publisher
- John Wiley and Sons
- Year
- 2010
- Tongue
- English
- Weight
- 902 KB
- Volume
- 6
- Category
- Article
- ISSN
- 1613-6810
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✦ Synopsis
Abstract
A method to produce biocompatible polymer‐coated silicon nanocrystals for medical imaging is shown. Silica‐embedded Si nanocrystals are formed by HSQ thermolysis. The nanocrystals are then liberated from the oxide and terminated with Si–H bonds by HF etching, followed by alkyl monolayer passivation by thermal hydrosilylation. The Si nanocrystals have an average diameter of 2.1 nm ± 0.6 nm and photoluminesce with a peak emission wavelength of 650 nm, which lies within the transmission window of 650–900 nm that is useful for biological imaging. The hydrophobic Si nanocrystals are then coated with an amphiphilic polymer for dispersion in aqueous media with the pH ranging between 7 and 10 and an ionic strength between 30 mM and 2 M, while maintaining a bright and stable photoluminescence and a hydrodynamic radius of only 20 nm. Fluorescence imaging of polymer‐coated Si nanocrystals in biological tissue is demonstrated, showing the potential for in vivo imaging.