Abstract
The reaction of single-component molecular crystal nanorods with a second species to form cocrystal nanorods is described. Single-component crystalline nanorods, composed of 9-methylanthracene (9-MA), are grown in a porous anodic aluminum oxide template. These templated rods are then exposed to a suspension of 1,2,4,5-tetracyanobenzene (TCNB) in water, which slowly diffuses into the 9-MA rods over the course of days. The two species form a 1:1 charge-transfer complex within the rods, which are transformed from crystalline 9-MA into cocrystalline 9-MA/TCNB. The cocrystal nanorods are characterized by electron microscopy, X-ray diffraction, and optical spectroscopy, confirming their highly crystalline structure and the formation of the charge-transfer complex. Attempts to grow cocrystal nanorods directly from a mixed solution were unsuccessful, as were attempts to recreate the single crystal-to-crystal reaction in macroscopic crystals. This work demonstrates how organic nanostructures can support structure- preserving chemical transformations that are impossible in larger crystals. © 2009 American Chemical Society.
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CITATION STYLE
Al-Kaysi, R. O., Miiller, A. M., Frisbee, R. J., & Bardeen, C. J. (2009). Formation of cocrystal nanorods by solid-state reaction of tetracyanobenzene in 9-methylanthracene molecular crystal nanorods. Crystal Growth and Design, 9(4), 1780–1785. https://doi.org/10.1021/cg800898f
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