Large elastic recovery of zinc dicyanoaurate

C. S. Coates; M. R. Ryder; J. A. Hill; J.-C. Tan; A. L. Goodwin

doi:10.1063/1.4990549

APL Materials (Jun 2017)

Large elastic recovery of zinc dicyanoaurate

C. S. Coates,
M. R. Ryder,
J. A. Hill,
J.-C. Tan,
A. L. Goodwin

Affiliations

C. S. Coates: Department of Chemistry, University of Oxford, Inorganic Chemistry Laboratory, South Parks Road, Oxford OX1 3QR, United Kingdom
M. R. Ryder: Department of Engineering Science, University of Oxford, Parks Road, Oxford OX1 3PJ, United Kingdom
J. A. Hill: Department of Chemistry, University of Oxford, Inorganic Chemistry Laboratory, South Parks Road, Oxford OX1 3QR, United Kingdom
J.-C. Tan: Department of Engineering Science, University of Oxford, Parks Road, Oxford OX1 3PJ, United Kingdom
A. L. Goodwin: Department of Chemistry, University of Oxford, Inorganic Chemistry Laboratory, South Parks Road, Oxford OX1 3QR, United Kingdom

DOI: https://doi.org/10.1063/1.4990549
Journal volume & issue: Vol. 5, no. 6
pp. 066107 – 066107-6

Abstract

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We report a single-crystal nanoindentation study of the negative compressibility material zinc(II) dicyanoaurate. The material exhibits a particularly strong elastic recovery, which we attribute to the existence of supramolecular helices that function as atomic-scale springs—storing mechanical energy during compressive stress and inhibiting plastic deformation. Our results are consistent with the relationship noted by Cheng and Cheng [Appl. Phys. Lett. 73, 614 (1998)] between elastic recovery and the ratio of material hardness to Young’s modulus. Drawing on comparisons with other framework materials containing helical motifs, we suggest helices as an attractive design element for imparting resistance to plastic deformation in functional materials.

Published in APL Materials

ISSN: 2166-532X (Online)
Publisher: AIP Publishing LLC
Country of publisher: United States
LCC subjects: Technology: Chemical technology: Biotechnology; Science: Physics
Website: http://aplmaterials.aip.org

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