Surface Structures Far-from-Equilibrium
Personnel
Project Leader(s):
Michael Tringides
Principal Investigators:
Kai-Ming Ho, Myron Hupalo, Patricia Thiel, Michael Tringides, Cai-Zhuang Wang
Overview
This project focuses on low dimensional surface structures (ultrathin metallic films, islands, wires, etc.), especially in systems exhibiting quantum size effects (QSE). Since such structures are metastable and grown far from equilibrium, it is important to identify the optimal kinetic pathways. In turn, this requires a better understanding of many atomistic processes (e.g. surface diffusion, nucleation, coarsening) that define the kinetic pathway. In addition the properties of the grown structures (e.g. band structure, density-of-states) depend on the structure dimensions. This opens the possibility to control their potential uses in chemical reactivity and energy storage.
This interdisciplinary effort (physics, chemistry) is built upon a close interaction between theorists (Wang, Ho) and experimentalists (Tringides, Thiel, Hupalo). The scientists with the project have a strong background in film growth, coarsening, diffusion, nucleation, and overlayer structure analysis.
This projects objectives include:
- Kinetics of growth. Certain systems with QSE exhibit anomalously fast aggregation kinetics, i.e. deposited atoms assemble very quickly into islands. We study and model the “window” in temperature and coverage parameter space where QSE-driven self organization is possible. These data are modeled to extract the controlling barriers. This understanding will be used to search for other systems where height uniformity exists.
- QSE and chemisorption. We test the effect of QSE on chemisorption in several systems, using both experiment (STM/STS, XPS, HRLEED) and theory. These systems include oxygen and hydrocarbons on Ag nanostructures on Si(111); and oxygen and hydrogen on Pb and Mg nanostructures.
Highlights
 
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Publications
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Shen M M; Liu D J; Jenks C J; Evans J W; Thiel P A . 2009. The effect of chalcogens (O, S) on coarsening of nanoislands on metal surfaces. Surface Science. 603:1486-1491. abstract
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Unal B; Fournee V; Thiel P A; Evans J W . 2009. Structure and Growth of Height-Selected Ag Islands on Fivefold i-AlPdMn Quasicrystalline Surfaces: STM Analysis and Step Dynamics Modeling. Physical Review Letters. 102:196103. abstract
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Binz S M; Hupalo M; Tringides M C . 2009. Quantum size effect dependent critical size cluster and finite size effects. Journal of Applied Physics. 105:094307. abstract
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Thiel P A; Shen M; Liu D J; Evans J W . 2009. Coarsening of Two-Dimensional Nanoclusters on Metal Surfaces. Journal of Physical Chemistry C. 113:5047-5067. abstract
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Shen M M; Liu D J; Jenks C J; Thiel P A; Evans J W . 2009. Accelerated coarsening of Ag adatom islands on Ag(111) due to trace amounts of S: Mass-transport mediated by Ag-S complexes. Journal of Chemical Physics. 130:094701. abstract
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Li M; Wang C Z; Evans J W; Hupalo M; Tringides M C; Ho K M . 2009. Competition between area and height evolution of Pb islands on a Si(111) surface. Physical Review B. 79:113404. abstract
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Binz S M; Hupalo M; Tringides M C . 2008. Height-dependent nucleation and ideal layer by layer growth in Pb/Pb(111)/Si(111). Physical Review B. 78:193407. abstract
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Kuntova Z; Tringides M C; Chvoj Z . 2008. Height-dependent barriers and nucleation in quantum size effect growth. Physical Review B. 78:155431. abstract
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