Crystal Orientation Dynamics of Collective Zn dots before Preferential Nucleation

The island nucleation in the context of heterogeneous thin film growth is often complicated by the growth kinetics involved in the subsequent thermodynamics. We show how the evolution of sputtered Zn island nucleation on Si(111) by magnetron sputtering in a large area can be completely understood as...

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Bibliographic Details
Published in:Scientific reports 2015-07, Vol.5 (1), p.12533-12533, Article 12533
Main Authors: Liu, Chun-Chu, Huang, Jun-Han, Ku, Ching-Shun, Chiu, Shang-Jui, Ghatak, Jay, Brahma, Sanjaya, Liu, Chung-Wei, Liu, Chuan-Pu, Lo, Kuang-Yao
Format: Article
Language:English
Subjects:
639/301/119/1002
639/301/119/544
639/301/357
Humanities and Social Sciences
multidisciplinary
Nucleation
Science
Thermodynamics
X-ray diffraction
X-rays
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Summary:The island nucleation in the context of heterogeneous thin film growth is often complicated by the growth kinetics involved in the subsequent thermodynamics. We show how the evolution of sputtered Zn island nucleation on Si(111) by magnetron sputtering in a large area can be completely understood as a model system by combining reflective second harmonic generation (RSHG), a 2D pole figure with synchrotron X-ray diffraction. Zn dots are then oxidized on the surfaces when exposed to the atmosphere as Zn/ZnO dots. Derived from the RSHG patterns of Zn dots at different growth times, the Zn dots grow following a unique transition from kinetic to thermodynamic control. Under kinetic-favoring growth, tiny Zn dots prefer arranging themselves with a tilted c -axis to the Si(111) substrate toward any of the sixfold in-plane Si directions. Upon growth, the Zn dots subsequently evolve themselves to a metastable state with a smaller tilting angle toward selective directions. As the Zn dots grow over a critical size, they become most thermodynamically stable with the c -axis vertical to the Si(111) substrate. For a system with large lattice mismatch, small volume dots take kinetic pathways with insignificant deviations in energy barriers.
ISSN:2045-2322
2045-2322
DOI:10.1038/srep12533