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In situ Observation of Structural Evolution and Phase Engineering of Amorphous Materials during Crystal Nucleation

Xiao Han, Geng Wu, Yiyao Ge, Shaokang Yang, Dewei Rao, Zhiyan Guo, Yan Zhang, Muyu Yan, Haoran Zhang, Haoran Zhang, Lin Gu, Yuen Wu, Yue Lin, Hua Zhang, Hua Zhang, Xun Hong

2022Advanced Materials23 citationsDOI

Abstract

The nucleation pathway determines the structures and thus properties of formed nanomaterials, which is governed by the free energy of the intermediate phase during nucleation. The amorphous structure, as one of the intermediate phases during nucleation, plays an important role in modulating the nucleation pathway. However, the process and mechanism of crystal nucleation from amorphous structures still need to be fully investigated. Here, in situ aberration-corrected high-angle annular dark-field scanning transmission electron microscopy (HAADF-STEM) is employed to conduct real-time imaging of the nucleation of ultrathin amorphous nanosheets (NSs). The results indicate that their nucleation contains three distinct stages, i.e., aggregation of atoms, crystallization to form lattice-expanded nanocrystals, and relaxation of the lattice-expanded nanocrystals to form final nanocrystals. In particular, the crystallization processes of various amorphous materials are investigated systematically to form corresponding nanocrystals with unconventional crystalline phases, including face-centered-cubic (fcc) Ru, hexagonal-close-packed (hcp) Rh, and a new intermetallic IrCo alloy. In situ electron energy-loss spectroscopy (EELS) analysis unveils that the doped carbon in the original amorphous NSs can migrate to the surface during the nucleation process, stabilizing the obtained unconventional crystal phases transformed from the amorphous structures, which is also proven by density functional theory (DFT) calculations.

Topics & Concepts

NucleationMaterials scienceCrystallizationAmorphous solidNanocrystalChemical physicsCrystal (programming language)CrystallographyTransmission electron microscopyChemical engineeringNanotechnologyThermodynamicsChemistryEngineeringPhysicsProgramming languageComputer scienceMetallic Glasses and Amorphous AlloysMaterial Dynamics and PropertiesTheoretical and Computational Physics