Mark W. Licurse scite author profile

Mark W. Licurse

4Publications

69Citation Statements Received

92Citation Statements Given

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Affiliations

University of Pennsylvania, University at Albany, State University of New York

Publications

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Ostwald ripening of manganese silicide islands on Si(001)

Krause

Stollenwerk

Licurse

et al. 2006

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The deposition of Mn onto Si͑001͒ in the submonolayer regime has been studied with scanning tunneling microscopy to gain insight into the bonding and energetics of Mn with Si. The as-deposited Mn films at room temperature are unstructured. Upon annealing to 300-700°C three-dimensional islands of Mn or Mn x Si y form while between the islands the Si͑001͒-͑2 ϫ 1͒ reconstruction becomes visible. With increasing annealing time the density of islands per surface area decreases while the average height of the remaining islands increases. The large islands grow in size at the expense of the small ones, which can be understood in the context of Ostwald ͓Z. Phys. Chem. 34, 495 ͑1900͔͒ ripening theory. The average island height shows a time dependence of H ϳ t 1/4 , indicating that surface diffusion is the growth limiting process.

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Nanocheckerboard modulations in (NaNd)(MgW)O6

Licurse

Davies

2010

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Data is presented for a complex structural and compositional modulation in the perovskite (NaNd)(MgW)O6. This modulation creates a large 14ap×14ap×2ap supercell (ap≈3.9 Å is the lattice parameter of the cubic perovskite aristotype) containing ordered regions with doubled (110) d-spacings in the a-b plane separated by two-dimensional periodic antiphase boundaries and accompanied by a nanocheckerboard pattern. Faint periodic modulations in Z-contrast images suggest an associated periodic variation in composition. The presence of a sodium rich impurity implies the composition of the stable perovskite is nonstoichiometric.

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Nanoscale modulations in (KLa)(CaW)O6 and (NaLa)(CaW)O6

Licurse

Borisevich

Davies

2012

Journal of Solid State Chemistry

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Measurement of the clustering energy for manganese silicide islands on Si(001) by Ostwald ripening

Krause

Stollenwerk

Licurse

et al. 2007

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The rate of growth during annealing of manganese silicide islands in the submonolayer coverage regime on the Si(001) surface has been measured by scanning tunneling microscopy. The fourth power of the growth rate is linearly dependent upon the annealing time, consistent with a diffusion limited Ostwald ripening mechanism for island growth. The growth rate has been determined for four different annealing temperatures to extract the activation energy for clustering, which has been found to be 2.6±0.2eV.

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Mark W. Licurse

Ostwald ripening of manganese silicide islands on Si(001)

Nanocheckerboard modulations in (NaNd)(MgW)O6

Nanoscale modulations in (KLa)(CaW)O6 and (NaLa)(CaW)O6

Measurement of the clustering energy for manganese silicide islands on Si(001) by Ostwald ripening

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