Predictive modelling of structure formation in semiconductor films produced by meniscus-guided coating.

Jasper J Michels, Ke Zhang, Philipp Wucher, Pierre M Beaujuge, Wojciech Pisula, Tomasz Marszalek

Research output: Contribution to journalArticlepeer-review

38 Scopus citations

Abstract

Meniscus-guided coating methods, such as zone casting, dip coating and solution shearing, are scalable laboratory models for large-area solution coating of functional materials for thin-film electronics. Unfortunately, the general lack of understanding of how the coating parameters affect the dry-film morphology upholds trial-and-error experimentation and delays lab-to-fab translation. We present herein a model that predicts dry-film morphologies produced by meniscus-guided coating of a crystallizing solute. Our model reveals how the interplay between coating velocity and evaporation rate determines the crystalline domain size, shape anisotropy and regularity. If coating is fast, evaporation drives the system quickly past supersaturation, giving isotropic domain structures. If coating is slow, depletion due to crystallization stretches domains in the coating direction. The predicted morphologies have been experimentally confirmed by zone-casting experiments of the organic semiconductor 4-tolyl-bithiophenyl-diketopyrrolopyrrole. Although here we considered a small molecular solute, our model can be applied broadly to polymers and organic-inorganic hybrids such as perovskites.
Original languageEnglish (US)
JournalNature materials
DOIs
StatePublished - Aug 12 2020

Bibliographical note

KAUST Repository Item: Exported on 2020-10-01
Acknowledgements: The authors acknowledge P. W. M. Blom for stimulating discussions. K.Z. acknowledges the China Scholarship Council (CSC) for financial support. T.M. acknowledges the Foundation for Polish Science financed by the European Union under the European Regional Development Fund (POIR.04.04.00-00-3ED8/17-01).

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