Swift heavy ion irradiation of Pt nanocrystals: I. Shape transformation and dissolution

R. Giulian; L. L. Araujo; P. Kluth; D. J. Sprouster; C. S. Schnohr; A. P. Byrne; M. C. Ridgway

doi:10.1088/0022-3727/44/15/155401

Swift heavy ion irradiation of Pt nanocrystals: I. Shape transformation and dissolution

R. Giulian
, L. L. Araujo
, P. Kluth
, D. J. Sprouster
, C. S. Schnohr
, A. P. Byrne
, M. C. Ridgway

Materials Science and Engineering

Australian National University

Research output: Contribution to journal › Article › peer-review

8 Scopus citations

Abstract

We report on the effects of swift heavy ion irradiation of embedded Pt nanocrystals (NCs), which change from spheres to prolate spheroids to rods upon irradiation. Using a broad range of ion irradiation energies and NC mean sizes we demonstrate that the elongation and dissolution processes are energy and size dependent, attaining comparable levels of shape transformation and dissolution upon a given energy density deposited in the matrix. The NC shape transformation remains operative despite discontinuous ion tracks in the matrix and exhibits a constant threshold size for elongation. In contrast, for ion irradiations in which the ion tracks are continuous, the threshold size for elongation is clearly energy dependent.

Original language	English
Article number	155401
Journal	Journal of Physics D: Applied Physics
Volume	44
Issue number	15
DOIs	https://doi.org/10.1088/0022-3727/44/15/155401
State	Published - Apr 20 2011

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title = "Swift heavy ion irradiation of Pt nanocrystals: I. Shape transformation and dissolution",

abstract = "We report on the effects of swift heavy ion irradiation of embedded Pt nanocrystals (NCs), which change from spheres to prolate spheroids to rods upon irradiation. Using a broad range of ion irradiation energies and NC mean sizes we demonstrate that the elongation and dissolution processes are energy and size dependent, attaining comparable levels of shape transformation and dissolution upon a given energy density deposited in the matrix. The NC shape transformation remains operative despite discontinuous ion tracks in the matrix and exhibits a constant threshold size for elongation. In contrast, for ion irradiations in which the ion tracks are continuous, the threshold size for elongation is clearly energy dependent.",

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AU - Giulian, R.

AU - Araujo, L. L.

AU - Kluth, P.

AU - Sprouster, D. J.

AU - Schnohr, C. S.

AU - Byrne, A. P.

AU - Ridgway, M. C.

PY - 2011/4/20

Y1 - 2011/4/20

N2 - We report on the effects of swift heavy ion irradiation of embedded Pt nanocrystals (NCs), which change from spheres to prolate spheroids to rods upon irradiation. Using a broad range of ion irradiation energies and NC mean sizes we demonstrate that the elongation and dissolution processes are energy and size dependent, attaining comparable levels of shape transformation and dissolution upon a given energy density deposited in the matrix. The NC shape transformation remains operative despite discontinuous ion tracks in the matrix and exhibits a constant threshold size for elongation. In contrast, for ion irradiations in which the ion tracks are continuous, the threshold size for elongation is clearly energy dependent.

AB - We report on the effects of swift heavy ion irradiation of embedded Pt nanocrystals (NCs), which change from spheres to prolate spheroids to rods upon irradiation. Using a broad range of ion irradiation energies and NC mean sizes we demonstrate that the elongation and dissolution processes are energy and size dependent, attaining comparable levels of shape transformation and dissolution upon a given energy density deposited in the matrix. The NC shape transformation remains operative despite discontinuous ion tracks in the matrix and exhibits a constant threshold size for elongation. In contrast, for ion irradiations in which the ion tracks are continuous, the threshold size for elongation is clearly energy dependent.

UR - https://www.scopus.com/pages/publications/79953657341

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DO - 10.1088/0022-3727/44/15/155401

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VL - 44

JO - Journal of Physics D: Applied Physics

JF - Journal of Physics D: Applied Physics

IS - 15

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ER -

Swift heavy ion irradiation of Pt nanocrystals: I. Shape transformation and dissolution

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