Cocrystal Growth in Organic Semiconductor Thin Films: Simulation of Pentacene, Perfluoropentacene, and Their 1:1 Blend Deposited On Graphite

Abstract: The understanding of crystal formation in thin films and the precise knowledge of the relation between structure and surface diffusion are two important requirements for the efficient (nano)fabrication of organic electronic devices. Here a computational approach for simulating vapor-phase deposition is employed to obtain and investigate three types of crystalline thin films on graphite. All systems, namely pentacene, perfluoropentacene, and their 1:1 blend, which forms an alternate cocrystal, are constituted b… Show more

“…In recent years, interest in organic materials has increased due to their ease of processing, low cost, and flexibility. However, the anisotropy of organic molecules in these films introduces an additional orientational degree of freedom and anisotropic interactions [12][13][14][15][16][17][18][19], affecting the structure and properties of the film. As a result, complex growth scenarios can occur in which initial monolayers (MLs) can fully close, or rapidly start to roughen along with unusual Figure 1.…”

Insight into heterogeneous dynamics of growing islands using coherent x-ray scattering

“…In recent years, interest in organic materials has increased due to their ease of processing, low cost, and flexibility. However, the anisotropy of organic molecules in these films introduces an additional orientational degree of freedom and anisotropic interactions [12][13][14][15][16][17][18][19], affecting the structure and properties of the film. As a result, complex growth scenarios can occur in which initial monolayers (MLs) can fully close, or rapidly start to roughen along with unusual Figure 1.…”

Insight into heterogeneous dynamics of growing islands using coherent x-ray scattering