English

Revealing 3-dimensional core-shell interface structures at the single-atom level

Materials Science 2022-10-25 v1 Mesoscale and Nanoscale Physics

Abstract

Nanomaterials with core-shell architectures are prominent examples of strain-engineered materials, where material properties can be designed by fine-tuning the misfit strain at the interface. Here, we elucidate the full 3D atomic structure of Pd@Pt core-shell nanoparticles at the single-atom level via atomic electron tomography. Full 3D displacement fields and strain profiles of core-shell nanoparticles were obtained, which revealed a direct correlation between the surface and interface strain. It also showed clear Poisson effects at the scale of the full nanoparticle as well as the local atomic bonds. The strain distributions show a strong shape-dependent anisotropy, whose nature was further corroborated by molecular statics simulations. From the observed surface strains, the surface oxygen reduction reaction activities were predicted. These findings give a deep understanding of structure-property relationships in strain-engineerable core-shell systems, which could pave a new way toward direct control over the resulting catalytic properties.

Keywords

Cite

@article{arxiv.2207.06677,
  title  = {Revealing 3-dimensional core-shell interface structures at the single-atom level},
  author = {Hyesung Jo and Dae Han Wi and Taegu Lee and Yongmin Kwon and Chaehwa Jeong and Juhyeok Lee and Hionsuck Baik and Alexander J. Pattison and Wolfgang Theis and Colin Ophus and Peter Ercius and Yea-Lee Lee and Seunghwa Ryu and Sang Woo Han and Yongsoo Yang},
  journal= {arXiv preprint arXiv:2207.06677},
  year   = {2022}
}

Comments

Main manuscript: 30 pages, 4 figures, 73 references || Supplementary info: 26 pages, 26 figures, 1 table, 15 references

R2 v1 2026-06-25T00:54:15.745Z