@article{ba42e825a3c94df7b39da48fdb6f819d,
title = "Programmable and coherent crystallization of semiconductors",
abstract = "The functional properties and technological utility of polycrystalline materials are largely determined by the structure, geometry, and spatial distribution of their multitude of crystals. However, crystallization is seeded through stochastic and incoherent nucleation events, limiting the ability to control or pattern the microstructure, texture, and functional properties of polycrystalline materials. We present a universal approach that can program the microstructure of materials through the coherent seeding of otherwise stochastic homogeneous nucleation events. The method relies on creating topographic variations to seed nucleation and growth at designated locations while delaying nucleation elsewhere. Each seed can thus produce a coherent growth front of crystallization with a geometry designated by the shape and arrangement of seeds. Periodic and aperiodic crystalline arrays of functional materials, such as semiconductors, can thus be created on demand and with unprecedented sophistication and ease by patterning the location and shape of the seeds. This approach is used to demonstrate printed arrays of organic thin-film transistors with remarkable performance and reproducibility owing to their demonstrated spatial control over the microstructure of organic and inorganic polycrystalline semiconductors.",
author = "Liyang Yu and Niazi, {Muhammad R.} and {Ngongang Ndjawa}, {Guy O.} and Ruipeng Li and Kirmani, {Ahmad R.} and Rahim Munir and Balawi, {Ahmed H.} and Fr{\'e}d{\'e}ric Laquai and Aram Amassian",
note = "Funding Information: We thank N. Treat, N. Stingelin, and E.H. Sargent for helpful discussions, J.E. Anthony for providing us with TES ADT and H. Hu for assistance with atomic force microscopy measurements. A.H.B. and F.L. thank K. Vandewal for his contribution to the PDS setup and M. Baier for help with the experiments. Part of this work was performed at CHESS, which was supported by the NSF and the NIH/National Institutes of General Medical Science via NSF award DMR-1332208. The research reported here was supported by the King Abdullah University of Science and Technology. A.A. is grateful to Saudi Arabian Basic Industries Corporation (SABIC) for the Career Development SABIC Chair. Author contributions: L.Y. and A.A. conceived and designed the project. G.O.N.N. assisted with the vacuum deposition and crystallization studies of rubrene and MoOx films. M.R.N. assisted with the fabrication and crystallization of TES ADT thin films and transistors. R.L. assisted with mGIWAXS mapping experiments. A.R.K. conducted the QCM-D measurements. R.M. assisted with the fabrication and crystallization of organohalide perovskite films. A.H.B. and F.L. conducted the PDS measurements. L.Y. performed all other experiments. L.Y. and A.A. wrote the manuscript. A.A. supervised Publisher Copyright: 2017 {\textcopyright} The Authors, some rights reserved.",
year = "2017",
month = mar,
doi = "10.1126/sciadv.1602462",
language = "English (US)",
volume = "3",
journal = "SCIENCE ADVANCES",
issn = "2375-2548",
publisher = "American Association for the Advancement of Science",
number = "3",
}