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SYSM: Single Molecule Spectroscopy of Nanoobjects

SYSM 1: Single Molecule Spectroscopy of Nanoobjects I

SYSM 1.3: Hauptvortrag

Donnerstag, 5. März 2009, 11:50–12:30, VMP 8 HS

Hot Brownian Motion and Photothermal Correlation Spectroscopy — •Romy Radünz¹, Daniel Rings², Klaus Kroy², and Frank Cichos¹ — ¹Molecular Nanophotonics Group, Institute of Experimental Physics I, University Leipzig, Linnestra\sse 5, 04107 Leipzig, GERMANY — ²Soft Condensed Matter Theory, Institute of Theoretical Physics, University Leipzig, Vor dem Hospitaltore 1, 04103 Leipzig, GERMANY

We introduce a new technique for the measurement of tracer dynamics, called photothermal correlation spectroscopy, which is sensitive to single metal nanoparticles down to a radius of 2.5 nm with a time resolution of a few microseconds. The method is based on a fluctuation analysis of a heterodyne photothermal scattering signal, which is recorded in a simple confocal microscopy setup. It exploits the same principles as fluorescence correlation spectroscopy but targets the use of extremely photostable, non-fluorescent, nano-sized tracers as a replacement of fluorescent probes. To validate our approach, we verify that the Stokes-Einstein relation holds for heated diffusing gold nanoparticles, with an effective viscosity and temperature predicted by a semi-quantitative analytical model. This example of hot Brownian motion promises to shine new light into diffusion problems under thermal non-equilibrium as it is important for the heat conduction in nano-fluids. In summary, the presented method together with the photostability and the low size dispersion of gold nanoparticles provides large potential for broad applications especially in the field of high throughput biological screening.