Epitaxy and Molecular Organization on Solid Substrates

Hooks, Daniel E; Fritz, Torsten; Ward, Michael D.

doi:10.1002/1521-4095(200102)13:4<227::aid-adma227>3.0.co;2-p

Cited by 469 publications

(480 citation statements)

References 95 publications

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“…28,31 Another possible application concerns the structure of intercalated crystals, where the three-dimensional Fourier expansion describes the field felt by a foreign element introduced inside of a crystal. 32 The computer codes for generating all commensurate structures for a given coverage range and the Fourier sequence associated with each structure on ͑111͒ and ͑100͒ surfaces are available upon request from the author.…”

Section: Discussionmentioning

confidence: 99%

“…One expects lower energy structures to have higher symmetry, although this would require that the Fourier amplitudes be strictly decaying. Although this seems to be the case for some physisorption systems, 17,18 many examples of higher-order commensurate structures exist in the experimental literature on atomic and molecular adsorption, 5,9,11,13,21,22,[27][28][29] where the stability should be mainly determined by the contribution of the high-order Fourier terms. Furthermore, the knowledge of the Fourier amplitudes for any particular system ͑i.e., obtained from DFT calculations͒ could allow better interpretation of the translational symmetry of commensurate monolayers in addition to the fitting of the LEED spectra.…”

Section: Discussionmentioning

confidence: 99%

“…The theory presented in this work could probably be extended to treat coincident organic molecule epitaxy, 28 where the molecule-surface potential has been shown to dominate the structure formation. 28,31 Another possible application concerns the structure of intercalated crystals, where the three-dimensional Fourier expansion describes the field felt by a foreign element introduced inside of a crystal.…”

Section: Discussionmentioning

confidence: 99%

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Commensurate monolayers on surfaces: Geometry and ground states

Tkatchenko

2007

Phys. Rev. B

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We present a procedure for the generation of all rigid commensurate monolayer-surface structures of a given symmetry, up to a certain number of adsorbate particles, N ads , in the unit cell. It is shown that the minimum energy structures in each unit cell are related to a well-defined sequence of Fourier terms of the single-particlesurface potential. This fact allows the prediction of stable commensurate monolayer-surface structures with the only knowledge of Fourier coefficients of the atom-surface potential. The impact of the presented theory for theoretical and experimental determination of atomic and molecular monolayer ground states, as well as its extension to higher dimensions ͑i.e., for intercalated crystals͒, is discussed.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

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Commensurate monolayers on surfaces: Geometry and ground states

Tkatchenko

2007

Phys. Rev. B

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“…While the structure and epitaxy has been thoroughly studied for several model systems, such as PTCDA [1,2,3,4,5,6,7,8], on Ag(111) the growth dynamics and evolution of the resulting morphology have been less systematically investigated. Importantly, even for a system with well-defined monolayer epitaxy, the later stages of the growth (after a certain threshold thickness) can, of course, exhibit islanding (Stranski-Krastanov (SK) growth) and a very rough resulting morphology.…”

Section: Introductionmentioning

confidence: 99%

Late growth stages and post-growth diffusion in organic epitaxy: PTCDA on Ag(111)

et al. 2004

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The late growth stages and the post-growth diffusion of crystalline organic thin films have been investigated for 3,4,9,10-perylenetetracarboxylic dianhydride (PTCDA) on Ag(111), a model system in organic epitaxy. In situ x-ray measurements at the anti-Bragg point during the growth show intensity oscillations followed by a time-independent intensity which is independent of the growth temperature. At T 350 K, the intensity increases after growth up to a temperature-dependent saturation value due to a post-growth diffusion process. The time-independent intensity and the subsequent intensity recovery have been reproduced by models based on the morphology change as a function of the growth temperature. The morphology found after the post-growth diffusion processes has been studied by specular rod measurements.

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“…[14][15][16] Monolayers formed at well-ordered surfaces show a wide variety of ordered structures: simple commensurate, uniaxially compressed, and complex incommensurate with domain walls among others. 7,17,18 Even when analytic expressions for the interactions of a monolayer-surface system are known, i.e., for Xe-Pt͑111͒, 19,20 the determination of the global minimum is still a formidable task. 21 That is, although molecular dynamics could be employed with a large system size to determine the most probable minimum of an adsorbatesubstrate system, 22 this approach suffers from the finite-size effect and requires an initial guess, making the search process biased.…”

Section: Introductionmentioning

confidence: 99%

Comprehensive study of the potential energy surface minima of a monolayer on (111) surface

Tkatchenko

2007

Phys. Rev. B

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The potential energy landscape of a monolayer adsorbed on well-ordered ͑111͒ surface is analyzed for periodic cells with a variable number of adsorbate ͑N ads ͒ and substrate ͑N sub ͒ particles. The atom-surface potential is described by the first Fourier series term with variable corrugation, while the lateral interaction in the monolayer is modeled by a repulsive exponential term. Special attention is devoted to the determination of the total number of minima for given N ads and N sub and the probability of relaxation to the global minimum in each of the unit cells, as well as the construction of the lowest energy versus coverage curve as a function of the atom-surface potential corrugation. We find that the global appearance of the energy landscape in the majority of the unit cells is particularly simple, characterized by the global minimum positioned in a very wide basin and the high-energy minima forming a tail structure. However, this rule is broken for several unit cells when the corrugation of the atom-surface potential becomes large, making the location of the global minimum a rather difficult task. Despite the simplicity of our model, phase transitions from commensurate to striped incommensurate to hexagonal incommensurate rotated structures are observed.

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Epitaxy and Molecular Organization on Solid Substrates

Cited by 469 publications

References 95 publications

Commensurate monolayers on surfaces: Geometry and ground states

Commensurate monolayers on surfaces: Geometry and ground states

Late growth stages and post-growth diffusion in organic epitaxy: PTCDA on Ag(111)

Comprehensive study of the potential energy surface minima of a monolayer on (111) surface

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