Despite use of currently available technologies, cancer remains one of the leading causes of death worldwide. Gold-based nanoparticles that strongly absorb near-infrared light, such as nanoshells and nanorods, have shown potential as both diagnostic and therapeutic agents for cancer management (1–3). In this work we explored the use of gold-gold sulfide nanoparticles (mean diameter = 37 nm) with peak plasmon resonance at 800 nm for combined imaging and therapy of breast cancer. Upon excitation with a pulsed laser, these particles exhibit two-photon induced luminescence which may be used to image cancer cells. In addition, by increasing the power output of the laser, cancer cells can be thermally ablated as the gold-gold sulfide nanoparticles convert the light energy into heat.

Volume Subject Area:
Manufacturing and Materials for NanoMedicine
Topics:
Cancer, Imaging, Microscopy, Nanoparticles, Patient treatment, Lasers, Excitation, Heat, Luminescence, Nanorods, Particulate matter, Photons, Plasmons (Physics), Resonance
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Copyright © 2010
 by ASME
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