Photothermal microspectroscopy with Bessel-Gauss beams and reflective objectives.

Here, we investigate scanning photothermal microspectroscopic imaging of metal nanoparticles with reflective objectives. We show that correction-less collection of spectra from single spherical nanoparticles embedded in a polymer is possible over a wide spectral band, with large depth of focus, long working distance, and high lateral spatial resolution. We posit that these beneficial characteristics are inherent of the Bessel-Gauss character of the focused beam.

Measurement of Nanoparticle Adlayer Properties by Photothermal Microscopy.

Many nanoparticle applications require molecular adlayers that impart desirable interfacial characteristics. Such characteristics are crucial in controlling the interaction of the nanoparticle with the environment or other nanoparticles; however, departures from bulk values are expected for adlayer properties and in situ methods to evaluate the magnitude of these departures, preferably on the scale of a single nanoparticle, are needed. Here we investigate the potential of single-particle photothermal microscopy for measuring the thermal properties of nanoparticle-supported, layer-by-layer grown polyelectrolytes.

Photothermal imaging and measurement of protein shell stoichiometry of single HIV-1 Gag virus-like nanoparticles.

Virus life stages often constitute a complex chain of events, difficult to track in vivo and in real-time. Challenges are associated with spatial and time limitations of current probes: most viruses are smaller than the diffraction limit of optical microscopes while the entire time scale of virus dynamics spans over 8 orders of magnitude. Thus, virus processes such as entry, disassembly, and egress have generally remained poorly understood.