C R Chris Wang scite author profile

The water-immiscible ionic liquid, [C4MIM][PF6], is a solvent medium that allows complete transfer of gold nanoparticles from an aqueous phase into an organic phase. Both spherical and rod-shaped gold nanoparticles are efficiently transferred from an aqueous solution into the organic phase without requiring the use of thiols. The sizes and shapes of the gold nanoparticles were preserved during the phase-transfer process when a surfactant was added to the ionic liquid. This process offers a simple approach for obtaining solutions of differently sized and shaped gold nanoparticles in ionic liquids.

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Highly Efficient, Wavelength-Tunable, Gold Nanoparticle Based Optothermal Nanoconvertors

Chou

2005

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A photon-to-thermal energy conversion nanosystem based the near-infrared irradiation of one-dimensional gold nanoparticles (nanorods) is highly efficient and tunable to the incident wavelength. Using ambient photothermal detection, we observed a temperature rise of ca. 30 degrees C upon irradiating an aliquot of an aqueous nanoparticle suspension with a laser for 5 s. The temperature can be elevated even higher by embedding the particles into a poorly thermally conducting solid medium. The illuminated area of a sample containing nanorod particles embedded in a polyurethane matrix can be heated to >100 degrees C upon irradiation for 1 min. This optothermal conversion efficiency can be turned on selectively by tuning the wavelength to match that of the surface plasmon resonance of the particles. This specificity, with respect to the wavelength of the incident light, makes these highly efficient, particle-based, optothermal nanoconvertors suitable for potential use in multicolor detection on biochips and related sensors and as ideal contrasting agents for optoacoustic biomedical imaging applications.

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Filling in dentinal tubules

et al. 2007

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We report on the demonstration of two occlusion protocols for exposed dentinal tubules with the aid of gold nanoparticles: first, the inner tubular walls are pre-adsorbed by sub-monolayer gold nanoparticles, followed by a silver staining process to achieve tubular occlusion. Second, highly concentrated gold nanoparticles were brushed into the exposed ends of dentinal tubules, followed by laser irradiation which promoted sintering of gold nanoparticle aggregates via photothermal conversion.

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C R Chris Wang

Aqueous−Organic Phase Transfer of Gold Nanoparticles and Gold Nanorods Using an Ionic Liquid

Highly Efficient, Wavelength-Tunable, Gold Nanoparticle Based Optothermal Nanoconvertors

Filling in dentinal tubules

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