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Literature DB >> 27161600

An unforeseen polymorph of coronene by the application of magnetic fields during crystal growth.

Jason Potticary¹, Lui R Terry¹, Christopher Bell², Alexandros N Papanikolopoulos³, Peter C M Christianen³, Hans Engelkamp³, Andrew M Collins⁴, Claudio Fontanesi^5,6, Gabriele Kociok-Köhn⁷, Simon Crampin⁵, Enrico Da Como⁵, Simon R Hall¹.

Abstract

The continued development of novel drugs, proteins, and advanced materials strongly rely on our ability to self-assemble molecules in solids with the most suitable structure (polymorph) in order to exhibit desired functionalities. The search for new polymorphs remains a scientific challenge, that is at the core of crystal engineering and there has been a lack of effective solutions to this problem. Here we show that by crystallizing the polyaromatic hydrocarbon coronene in the presence of a magnetic field, a polymorph is formed in a β-herringbone structure instead of the ubiquitous γ-herringbone structure, with a decrease of 35° in the herringbone nearest neighbour angle. The β-herringbone polymorph is stable, preserves its structure under ambient conditions and as a result of the altered molecular packing of the crystals, exhibits significant changes to the optical and mechanical properties of the crystal.

Entities: Chemical Disease Species

Year: 2016 PMID： 27161600 PMCID： PMC4866376 DOI： 10.1038/ncomms11555

Source DB: PubMed Journal: Nat Commun ISSN： 2041-1723 Impact factor: 14.919

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