Author
Listed:
- Lianfeng Zou
(State University of New York)
- Penghui Cao
(University of California)
- Yinkai Lei
(University of Pittsburgh)
- Dmitri Zakharov
(Brookhaven National Laboratory)
- Xianhu Sun
(State University of New York)
- Stephen D. House
(University of Pittsburgh
University of Pittsburgh)
- Langli Luo
(State University of New York)
- Jonathan Li
(State University of New York)
- Yang Yang
(Massachusetts Institute of Technology)
- Qiyue Yin
(State University of New York)
- Xiaobo Chen
(State University of New York)
- Chaoran Li
(State University of New York)
- Hailang Qin
(State University of New York)
- Eric A. Stach
(University of Pennsylvania)
- Judith C. Yang
(University of Pittsburgh
University of Pittsburgh)
- Guofeng Wang
(University of Pittsburgh)
- Guangwen Zhou
(State University of New York)
Abstract
Dealloying typically occurs via the chemical dissolution of an alloy component through a corrosion process. In contrast, here we report an atomic-scale nonchemical dealloying process that results in the clustering of solute atoms. We show that the disparity in the adatom–substrate exchange barriers separate Cu adatoms from a Cu–Au mixture, leaving behind a fluid phase enriched with Au adatoms that subsequently aggregate into supported clusters. Using dynamic, atomic-scale electron microscopy observations and theoretical modeling, we delineate the atomic-scale mechanisms associated with the nucleation, rotation and amorphization–crystallization oscillations of the Au clusters. We expect broader applicability of the results because the phase separation process is dictated by the inherent asymmetric adatom-substrate exchange barriers for separating dissimilar atoms in multicomponent materials.
Suggested Citation
Lianfeng Zou & Penghui Cao & Yinkai Lei & Dmitri Zakharov & Xianhu Sun & Stephen D. House & Langli Luo & Jonathan Li & Yang Yang & Qiyue Yin & Xiaobo Chen & Chaoran Li & Hailang Qin & Eric A. Stach & , 2020.
"Atomic-scale phase separation induced clustering of solute atoms,"
Nature Communications, Nature, vol. 11(1), pages 1-10, December.
Handle:
RePEc:nat:natcom:v:11:y:2020:i:1:d:10.1038_s41467-020-17826-w
DOI: 10.1038/s41467-020-17826-w
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