Particle Surface Chemistry // Researchers Track Nanoparticle Dynamics in Three Dimensions © Based on Material by NIST, USA

Researchers from the NIST Center for Nanoscale Science and Technology (US) have used threedimensional single-particle tracking to measure the dynamic behavior of individual nanoparticles adsor- bed at the surface of micrometer-scale oil droplets in water. The results revealed that the diffusion of the particles depends on their size, with smaller particles diffusing much more slowly than expected. A detailed understanding of how colloidal nanoparticles interact with interfaces is essential for designing them for specific applications in fields ranging from drug delivery to oil exploration and recovery. The researchers developed a feedback control system with real-time control electronics to actuate a piezoelectric stage, moving the sample in order to lock the moving nanoparticle in the observation volume of an optical microscope. The technique, which triggers off of photons collected in situ from an individual fluorescing nanoparticle, provides high resolution threedimensional position information with excellent time resolution and with the added benefit of sensitivity to chemical activity. Particles ranging in size from 20nm to 2000nm were followed in real-time as they diffused freely in water and over the curved surfaces of variously-sized oil droplets. As expected, the diffusion coefficients scaled with particle size for the freely diffusing particles. However, there was a significant and unexpected decrease in the diffusion coefficients for smaller (<200 nm) nanoparticles when they diffused at the oil-water interface. Furthermore, for a given particle size, the researchers observed a large spread in the diffusion coefficients measured at the interface, while no such effect was observed for the freely diffusing particles. In order to better fit the measurements, the basic model that works well for larger particles diffusing at a fluid-fluid interface needed to be modified to account for line tension (the one-dimensional analogue of surface tension) at the interface between the smaller nanoparticles, the oil, and the water.

The researchers believe that the variability in the diffusion coefficients of the particles adsorbed at the interface is most probably a reflection of subtle variations in the surface chemistry of the particles, suggesting that diffusion measurements may provide a new way to compare particle surface chemistries.

Kan Du, J. Alexander Liddle, and Andrew J. Berglund: Three-Dimensional Real-Time Tracking of Nanoparticles at an Oil-Water Interface, In: Langmuir, Volume 28, Issue 25, June 26, 2012, Pages 9181-9188, DOI: 10.1021/ la300292r:

http://dx.doi.org/10.1021/la300292r http://www.nist.gov/cnst/