Atomic-scale description of tensile-induced desintering and formation of monatomic wires in nanostructured ceramics

Rodrigo B Capaz; Tanna Fiuza; Bruno Focassio; Jefferson Bettini; Gabriel R Schleder; Murillo Rodrigues; João Souza Jr.; Adalberto Fazzio; Edson R Leite

Atomic-scale description of tensile-induced desintering and formation of monatomic wires in nanostructured ceramics

ORAL

Abstract

We employ in situ high-resolution transmission electron microscopy (HRTEM) to observe desintering between ZrO₂ nanoparticles at room temperature with unprecedented spatial and temporal resolutions. At the atomic scale, contrary to macroscopic descriptions, no instability is observed. Instead, a stable nano-bridge (with a single grain boundary) is formed, then evolving to an ionic atomic wire. To our knowledge, this is the first observation of an ionic monatomic wire. Density-functional theory (DFT) calculations reveal the key role of oxygen vacancies in the stability and rupture of such wires. Our work provides insights on both the rupture of ceramic materials and on atomic-level control of densification processes.

March 14, 2022, 6:24 PM – March 14, 2022, 6:36 PM

Publication: Atomic-scale description of tensile-induced desintering in nanostructured ceramics at room temperature (submitted)<br>Stability and Rupture of an Ultrathin Ionic Wire (in preparation)

Presenters

Rodrigo B Capaz

Federal University of Rio de Janeiro

Authors

Rodrigo B Capaz

Federal University of Rio de Janeiro
Tanna Fiuza

Brazilian Nanotechnology National Laboratory (LNNano)
Bruno Focassio

Univ Federal do ABC
Jefferson Bettini

Brazilian Nanotechnology National Laboratory (LNNano)
Gabriel R Schleder

Univ Federal do ABC, Harvard University
Murillo Rodrigues

Federal University of São Carlos
João Souza Jr.

Brazilian Nanotechnology National Laboratory
Adalberto Fazzio

Brazilian Nanotechnology National Laboratory
Edson R Leite

Brazilian Nanotechnology National Laboratory