Giant Negative Linear Compressibility in Orthorhombic Copper Cyanide

Swayam Kesari; Alka B. Garg; Nilesh P. Salke; Rekha Rao

arXiv:2410.21623·cond-mat.mtrl-sci·November 7, 2024

Giant Negative Linear Compressibility in Orthorhombic Copper Cyanide

Swayam Kesari, Alka B. Garg, Nilesh P. Salke, Rekha Rao

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TL;DR

This paper reports the discovery of giant negative linear compressibility in orthorhombic CuCN over a large pressure range, revealing unique mechanical properties and phonon behaviors.

Contribution

It presents the first observation of giant NLC in CuCN, with detailed high-pressure and Raman studies elucidating the underlying mechanisms.

Findings

01

NLC of -20.5 TPa^-1 along the a-axis at zero pressure

02

Orthorhombic phase stable up to 9.8 GPa

03

Identification of phonon modes responsible for NLC and NTE

Abstract

Most reported negative linear compressibility (NLC) materials exhibit either a small NLC over a large pressure range or a high NLC over a very small pressure range. Here, we report the remarkable discovery of giant NLC in the low-temperature form of CuCN (LT-CuCN) over an unusually large pressure range. High-pressure XRD studies on LT-CuCN observed the NLC of -20.5 TPa-1 along the a-axis at zero pressure, and the ambient orthorhombic phase remained stable up to 9.8 GPa. Pressure and temperature-dependent Raman studies identified the phonon vibrations responsible for NLC and negative thermal expansion (NTE).

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Taxonomy

TopicsElasticity and Material Modeling · Boron and Carbon Nanomaterials Research · Engineering Structural Analysis Methods