English

Solving Complex Nanostructures With Ptychographic Atomic Electron Tomography

Applied Physics 2024-09-11 v1 Materials Science Instrumentation and Detectors

Abstract

Transmission electron microscopy (TEM) is a potent technique for the determination of three-dimensional atomic scale structure of samples in structural biology and materials science. In structural biology, three-dimensional structures of proteins are routinely determined using phase-contrast single-particle cryo-electron microscopy from thousands of identical proteins, and reconstructions have reached atomic resolution for specific proteins. In materials science, three-dimensional atomic structures of complex nanomaterials have been determined using a combination of annular dark field (ADF) scanning transmission electron microscopic (STEM) tomography and subpixel localization of atomic peaks, in a method termed atomic electron tomography (AET). However, neither of these methods can determine the three-dimensional atomic structure of heterogeneous nanomaterials containing light elements. Here, we perform mixed-state electron ptychography from 34.5 million diffraction patterns to reconstruct a high-resolution tilt series of a double wall-carbon nanotube (DW-CNT), encapsulating a complex ZrTe\mathrm{ZrTe} sandwich structure. Class averaging of the resulting reconstructions and subpixel localization of the atomic peaks in the reconstructed volume reveals the complex three-dimensional atomic structure of the core-shell heterostructure with 17 picometer precision. From these measurements, we solve the full Zr11Te50\mathrm{Zr_{11}Te_{50}} structure, which contains a previously unobserved ZrTe2\mathrm{ZrTe_{2}} phase in the core. The experimental realization of ptychographic atomic electron tomography (PAET) will allow for structural determination of a wide range of nanomaterials which are beam-sensitive or contain light elements.

Keywords

Cite

@article{arxiv.2206.08958,
  title  = {Solving Complex Nanostructures With Ptychographic Atomic Electron Tomography},
  author = {Philipp M Pelz and Sinead Griffin and Scott Stonemeyer and Derek Popple and Hannah Devyldere and Peter Ercius and Alex Zettl and Mary C Scott and Colin Ophus},
  journal= {arXiv preprint arXiv:2206.08958},
  year   = {2024}
}

Comments

17 pages 3 figures in main text, 7 figures in supplementary materials

R2 v1 2026-06-24T11:55:29.837Z