Extraordinary anisotropic thermal expansion in photosalient crystals

Extraordinary anisotropic thermal expansion in photosalient crystals

Although a plethora of metal complexes have been characterized, those having multifunctional properties are very rare. This article reports three isotypical complexes, namely [Cu(benzoate)L2], where L = 4-styrylpyridine (4spy) (1), 2′-fluoro-4-styrylpyridine (2F-4spy) (2) and 3′-fluoro-4-styrylpyrid...

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Bibliographic Details
Main Authors: Khushboo Yadava, Gianpiero Gallo, Sebastian Bette, Caroline Evania Mulijanto, Durga Prasad Karothu, In-Hyeok Park, Raghavender Medishetty, Panče Naumov, Robert E. Dinnebier, Jagadese J. Vittal
Format: Article
Language:English
Published: International Union of Crystallography 2020-01-01
Series:IUCrJ
Subjects:
solid-state reactions
[2+2] cycloadditions
photosalient effects
thermal expansion
metal complexes
crystal engineering
mechanochemistry
properties of solids
organic solid-state reactions
molecular crystals
Online Access:http://scripts.iucr.org/cgi-bin/paper?S2052252519014581
Description
Summary:Although a plethora of metal complexes have been characterized, those having multifunctional properties are very rare. This article reports three isotypical complexes, namely [Cu(benzoate)L2], where L = 4-styrylpyridine (4spy) (1), 2′-fluoro-4-styrylpyridine (2F-4spy) (2) and 3′-fluoro-4-styrylpyridine (3F-4spy) (3), which show photosalient behavior (photoinduced crystal mobility) while they undergo [2+2] cycloaddition. These crystals also exhibit anisotropic thermal expansion when heated from room temperature to 200°C. The overall thermal expansion of the crystals is impressive, with the largest volumetric thermal expansion coefficients for 1, 2 and 3 of 241.8, 233.1 and 285.7 × 10−6 K−1, respectively, values that are comparable to only a handful of other reported materials known to undergo colossal thermal expansion. As a result of the expansion, their single crystals occasionally move by rolling. Altogether, these materials exhibit unusual and hitherto untapped solid-state properties.
ISSN:2052-2525

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