Issue 17, 2017

Evolution of dealloying induced strain in nanoporous gold crystals

Abstract

We studied the evolution of dealloying-induced strain along the {111} in a Ag–Au nano-crystal in situ, during formation of nanoporous gold at the initial stage of dealloying using Bragg coherent X-ray diffractive imaging. The strain magnitude with maximum probability in the crystal doubled in 10 s of dealloying. Although formation of nano-pores just began at the surface, the greatest strain is located 60–80 nm deep within the crystal. Dealloying induced a compressive strain in this region, indicating volume shrinkage occurred during pore formation. The crystal interior showed a small tensile strain, which can be explained by tensile stresses induced by the non-dealloyed region upon the dealloyed region during volume reduction. A surface strain relaxation developed, attributed to atomic rearrangement during dealloying. This clearer understanding of the role of strain in the initial stages of formation of nanoporous gold by dealloying can be exploited for development of new sensors, battery electrodes, and materials for catalysis.

Graphical abstract: Evolution of dealloying induced strain in nanoporous gold crystals

Supplementary files

Article information

Article type
Paper
Submitted
14 Dec 2016
Accepted
08 Apr 2017
First published
10 Apr 2017

Nanoscale, 2017,9, 5686-5693

Evolution of dealloying induced strain in nanoporous gold crystals

Y. K. Chen-Wiegart, R. Harder, D. C. Dunand and I. McNulty, Nanoscale, 2017, 9, 5686 DOI: 10.1039/C6NR09635B

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