Searching for New Polymorphs by Epitaxial Growth

Simbrunner, J.; Schrode, Benedikt; Hofer, Sebastian; Domke, Jari; Fritz, Torsten; Forker, Roman; Resel, Roland

doi:10.1021/acs.jpcc.0c10021

Cited by 11 publications

(36 citation statements)

References 56 publications

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“…the planes with the Miller indices (uvw) and (Àu À v À w). In the case of dicyanovinyl-quaterthiophene (DCV4T-Et2) on Ag(111) we observed three polymorphs with both different crystallographic unit cells as well as contact planes (Simbrunner et al, 2021a). (ii) The crystallites show additionally distinct rotational alignments in the xy plane.…”

Section: Introductionmentioning

confidence: 94%

“…The analysis of the diffraction pattern relies on indexing the obtained reflections to determine the unit cells formed by the underlying molecules. In a previous work, we described an algorithm which proved effective for the thin film analysis, where unit cells in various orientations and/or with different lattice parameters may occur (Simbrunner et al, 2020(Simbrunner et al, , 2021a. The following general crystallographic features of epitaxially grown films could be observed: (i) the crystallites grow with defined crystallographic planes parallel to the substrate surface (i.e.…”

Section: Introductionmentioning

confidence: 99%

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Correlation between two- and three-dimensional crystallographic lattices for epitaxial analysis. I. Theory

Simbrunner¹,

Domke²,

Forker³

et al. 2022

Acta Cryst Sect A

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The epitaxial growth of molecular crystals at single-crystalline surfaces is often strongly related to the first monolayer at the substrate surface. The present work presents a theoretical approach to compare three-dimensional lattices of epitaxially grown crystals with two-dimensional lattices of the molecules formed within the first monolayer. Real-space and reciprocal-space representations are considered. Depending on the crystallographic orientation relative to the substrate surface, proper linear combinations of the lattice vectors of the three-dimensional unit cell result in a rhomboid in the xy plane, representing a two-dimensional projection. Mathematical expressions are derived which provide a relationship between the six lattice parameters of the three-dimensional case and the three parameters obtained for the two-dimensional surface unit cell. It is found that rotational symmetries of the monolayers are reflected by the epitaxial order. Positive and negative orientations of the crystallographic contact planes are correlated with the mirror symmetry of the surface unit cells, and the corresponding mathematical expressions are derived. The method is exemplarily applied to data obtained in previous grazing-incidence X-ray diffraction (GIXD) measurements with sample rotation on thin films of the conjugated molecules 3,4;9,10-perylenetetracarboxylic dianhydride (PTCDA), 6,13-pentacenequinone (P2O), 1,2;8,9-dibenzopentacene (trans-DBPen) and dicyanovinyl-quaterthiophene (DCV4T-Et2) grown by physical vapor deposition on Ag(111) and Cu(111) single crystals. This work introduces the possibility to study three-dimensional crystal growth nucleated by an ordered monolayer by combining two different experimental techniques, GIXD and low-energy electron diffraction, which has been implemented in the second part of this work.

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Section: Introductionmentioning

confidence: 94%

Section: Introductionmentioning

confidence: 99%

Correlation between two- and three-dimensional crystallographic lattices for epitaxial analysis. I. Theory

Simbrunner¹,

Domke²,

Forker³

et al. 2022

Acta Cryst Sect A

Self Cite

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“…The mechanisms through which the substrate directs the heterogeneous nucleation of a given phase and the role played in the process by kinetics factors are far from being well understood. [71][72][73][74] Generally, phase boundaries produce a lowering in the free energy needed for nucleation. The surface of engineered substrates may act as a template in molecular deposition [75] and the subtle interplay of interactions at the interface may result into altogether new molecular arrangements, which are not observed in the bulk.…”

Section: Surface-mediated Polymorphsmentioning

confidence: 99%

Bulk and Surface‐Mediated Polymorphs of Bio‐Inspired Dyes Organic Semiconductors: The Role of Lattice Phonons in their Investigation

Salzillo

Giunchi

Pandolfi

et al. 2021

Israel Journal of Chemistry

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Raman spectroscopy of organic molecular materials in the low-wavenumber region gives access to lattice vibrational modes and to the wealth of information on solid state properties that these can provide. In the field of organic electronics a useful application concerns the discrimination of the crystalline forms i. e. polymorphism of the semiconductor. The capability of characterizing and identifying the polymorphs of a compound is in fact the prerequisite for an exhaustive study of the charge transport characteristics which arise from the relationship between molecular, electronic, and crystal structures. Thus, the need is felt of a noninvasive, non-destructive tool such as Raman, which probes the crystal phase by detecting the lattice modes which are sensitive even to subtle variations of the packing. Here we review the contribution of the technique to the study of organic pigments displaying promising semiconducting properties and characterized by polymorphism both in their bulk and thin film phases.

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“…The existence of a PFP:PEN mixed crystal structure with 1:1 stoichiometry has been deduced from XRD and grazing incidence x-ray diffraction (GIXRD) measurements. [28][29][30] Although atomic coordinates could not be obtained from experimental data, the GIXRD diffractogram is sufficient to determine the unit cell parameters 31,32 from the peak positions and to confirm or exclude a given structure by the peak intensities. GIXRD yields a P-1 triclinic unit cell for the PEN:PFP cocrystals (lattice parameters a = 15.7 Å, b = 7.4 Å, c = 7.2 Å, α = 102.8 ○ , β = 68.6 ○ , and γ = 97.6 ○ ).…”

Section: (F)mentioning

confidence: 99%

Singlet exciton fission via an intermolecular charge transfer state in coevaporated pentacene-perfluoropentacene thin films

Kim

Broch

Belova

et al. 2019

The Journal of Chemical Physics

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Searching for New Polymorphs by Epitaxial Growth

Cited by 11 publications

References 56 publications

Correlation between two- and three-dimensional crystallographic lattices for epitaxial analysis. I. Theory

Correlation between two- and three-dimensional crystallographic lattices for epitaxial analysis. I. Theory

Bulk and Surface‐Mediated Polymorphs of Bio‐Inspired Dyes Organic Semiconductors: The Role of Lattice Phonons in their Investigation

Singlet exciton fission via an intermolecular charge transfer state in coevaporated pentacene-perfluoropentacene thin films

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