Your search keyword '"Shpyrko, O. G."' showing total 2 results

1. Observation of x-ray radiation pressure effects on nanocrystals.

Author

Kim, J. W., Ulvestad, A., Manna, S., Harder, R., Fohtung, E., Singer, A., Boucheron, L., Fullerton, E. E., and Shpyrko, O. G.

Subjects

RADIATION, BRAGG gratings, CRYSTALLINE polymers, NANOCRYSTALS, SYNCHROTRON radiation

Abstract

Bragg coherent diffractive imaging is a powerful technique that can be used to explore the internal structure and strain of nanoscale crystalline objects. During the data collection process, the Bragg peak typically stays within a small range of pixels on the x-ray sensitive area detector. Here, we report abrupt and irreversible Bragg peak movement during the coherent x-ray data collection process for both Pd nanocubes and a Ni nanowire. We report that this phenomenon can be attributed to x-ray momentum transfer, also known as radiation pressure, to the nanocrystals. Understanding this effect is crucial given the anticipated coherent flux increases at next-generation synchrotron sources. [ABSTRACT FROM AUTHOR]

Published

2016

2. Curvature-induced and thermal strain in polyhedral gold nanocrystals.

Author

Kim, J. W., Manna, S., Dietze, S. H., Ulvestad, A., Harder, R., Fohtung, E., Fullerton, E. E., and Shpyrko, O. G.

Subjects

GOLD, NANOCRYSTALS, CHEMICAL vapor deposition, THERMAL properties of metals, THERMAL expansion, INTERFACES (Physical sciences)

Abstract

We use coherent x-ray diffractive imaging to map the local distribution of strain in gold (Au) polyhedral nanocrystals grown on a silicon (Si) substrate by a single-step thermal chemical vapor deposition process. The lattice strain at the surface of the octahedral nanocrystal agrees well with the predictions of the Young-Laplace equation quantitatively, but exhibits a discrepancy near the nanocrystal-substrate interface. We attribute this discrepancy to the dissimilar interfacial energies between Au/Air and Au/Si and to the difference in thermal expansion between the nanocrystal and the substrate during the cooling process. [ABSTRACT FROM AUTHOR]

Published

2014