Issue 41, 2015

Experimental and theoretical photoluminescence studies in nucleic acid assembled gold-upconverting nanoparticle clusters

Abstract

Combinations of rare earth doped upconverting nanoparticles (UCNPs) and gold nanostructures are sought as nanoscale theranostics due to their ability to convert near infrared (NIR) photons into visible light and heat, respectively. However, because the large NIR absorption cross-section of the gold coupled with their thermo-optical properties can significantly hamper the photoluminescence of UCNPs, methods to optimize the ratio of gold nanostructures to UCNPs must be developed and studied. We demonstrate here nucleic acid assembly methods to conjugate spherical gold nanoparticles (AuNPs) and gold nanostars (AuNSs) to silica-coated UCNPs and probe the effect on photoluminescence. These studies showed that while UCNP fluorescence enhancement was observed from the AuNPs conjugated UCNPs, AuNSs tended to quench fluorescence. However, conjugating lower ratios of AuNSs to UCNPs led to reduced quenching. Simulation studies both confirmed the experimental results and demonstrated that the orientation and distance of the UCNP with respect to the core and arms of the gold nanostructures played a significant role in PL. In addition, the AuNS–UCNP assemblies were able to cause rapid gains in temperature of the surrounding medium enabling their potential use as a photoimaging–photodynamic–photothermal agent.

Graphical abstract: Experimental and theoretical photoluminescence studies in nucleic acid assembled gold-upconverting nanoparticle clusters

Supplementary files

Article information

Article type
Communication
Submitted
27 Jul 2015
Accepted
25 Sep 2015
First published
28 Sep 2015

Nanoscale, 2015,7, 17254-17260

Author version available

Experimental and theoretical photoluminescence studies in nucleic acid assembled gold-upconverting nanoparticle clusters

L. He, C. Mao, S. Cho, K. Ma, W. Xi, C. N. Bowman, W. Park and J. N. Cha, Nanoscale, 2015, 7, 17254 DOI: 10.1039/C5NR05035A

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