2006
Anisotropic deformation of metallo-dielectric core-shell colloids under MeV ion irradiation
Publication
Publication
Nucl. Instrum. Methods Phys. Res. B , Volume 242 p. 523- 529
We have studied the deformation of metallo-dielectric core-shell colloids under 4 MeV Xe, 6 and 16 MeV Au, 30 MeV Si and 30 MeV Cu ion irradiation. Colloids of silica surrounded by a gold shell, with a typical diameter of 400 nm, show anisotropic plastic deformation under MeV ion irradiation, with the metal flowing conform the anisotropically deforming silica core. The 20 nm thick metal shell imposes a mechanical constraint on the deforming silica core, reducing the net deformation strain rate compared to that of pure silica. In colloids consisting of a Au core and a silica shell, the silica expands perpendicular to the ion beam, while the metal core shows a large elongation along the ion beam direction, provided the silica shell is thick enough (>40 nm). A minimum electronic energy loss of 3.3 keV/nm is required for shape transformation of the metal core. Silver cores embedded in a silica shell show no elongation, but rather disintegrate. Also in planar SiO2 films, Au and Ag colloids show entirely different behavior under MeV irradiation. We conclude that the deformation model of core-shell colloids must include ion-induced particle disintegration in combination with thermodynamical effects, possibly in combination with mechanical effects driven by stresses around the ion tracks.
Additional Metadata | |
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doi.org/10.1016/j.nimb.2005.08.116 | |
Nucl. Instrum. Methods Phys. Res. B | |
Organisation | Photonic Materials |
Penninkhof, J. J., van Dillen, T., Roorda, S., Graf, C., van Blaaderen, A., Vredenberg, A. J., & Polman, A. (2006). Anisotropic deformation of metallo-dielectric core-shell colloids under MeV ion irradiation. Nucl. Instrum. Methods Phys. Res., Sect B, 242, 523–529. doi:10.1016/j.nimb.2005.08.116 |