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Structural transition and migration of incoherent twin boundary in diamond.

Ke TongXiang ZhangZihe LiYanbin WangKun LuoChenming LiTianye JinYuqing ChangSong ZhaoYingju WuYufei GaoBaozhong LiGuoying GaoZhisheng ZhaoLin WangAnmin NieDongli YuZhongyuan LiuAlexander V SoldatovWentao HuBo XuYongjun Tian
Published in: Nature (2024)
Grain boundaries (GBs), with their diversity in both structure and structural transitions, play an essential role in tailoring the properties of polycrystalline materials 1-5 . As a unique GB subset, {112} incoherent twin boundaries (ITBs) are ubiquitous in nanotwinned, face-centred cubic materials 6-9 . Although multiple ITB configurations and transitions have been reported 7,10 , their transition mechanisms and impacts on mechanical properties remain largely unexplored, especially in regard to covalent materials. Here we report atomic observations of six ITB configurations and structural transitions in diamond at room temperature, showing a dislocation-mediated mechanism different from metallic systems 11,12 . The dominant ITBs are asymmetric and less mobile, contributing strongly to continuous hardening in nanotwinned diamond 13 . The potential driving forces of ITB activities are discussed. Our findings shed new light on GB behaviour in diamond and covalent materials, pointing to a new strategy for development of high-performance, nanotwinned materials.
Keyphrases
  • room temperature
  • diffusion weighted
  • magnetic resonance
  • ionic liquid
  • contrast enhanced