Unique Nanomechanical Properties of Diamond-Lonsdaleite Biphases: Combined Experimental and Theoretical Consideration of Popigai Impact Diamonds

Woohyeon Baek, Sergey A. Gromilov, Artem V. Kuklin, Evgenia A. Kovaleva, Alexandr S. Fedorov, Alexander S. Sukhikh, Michael Hanfland, Vladimir A. Pomogaev, Iuliia A. Melchakova, Paul V. Avramov, Kirill V. Yusenko

Research output: Contribution to journalArticlepeer-review

18 Scopus citations

Abstract

For the first time, lonsdaleite-rich impact diamonds from one of the largest Popigai impact crater (Northern Siberia) with a high concentration of structural defects are investigated under hydrostatic compression up to 25 GPa. It is found that, depending on the nature of a sample, the bulk modulus for lonsdaleite experimentally obtained by X-ray diffraction in diamond-anvil cells is systematically lower and equal to 93.3-100.5% of the average values of the bulk moduli of a diamond matrix. Density functional theory calculations reveal possible coexistence of a number of diamond/lonsdaleite and twin diamond biphases. Among the different mutual configurations, separate inclusions of one lonsdaleite (001) plane per four diamond (111) demonstrate the lowest energy per carbon atom, suggesting a favorable formation of single-layer lonsdaleite (001) fragments inserted in the diamond matrix. Calculated formation energies and experimental diamond (311) and lonsdaleite (331) powder X-ray diffraction patterns indicate that all biphases could be formed under high-temperature, high-pressure conditions. Following the equation of states, the bulk modulus of the diamond (111)/lonsdaleite (001) biphase is the largest one among all bulk moduli, including pristine diamond and lonsdaleite.

Original languageEnglish
Pages (from-to)1570-1576
Number of pages7
JournalNano Letters
Volume19
Issue number3
DOIs
StatePublished - 13 Mar 2019

Keywords

  • compressibility
  • diamond/lonsdailete biphases
  • high-pressure
  • Impact diamonds
  • lonsdaleite

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