Flash Shape-Memorization Processing and Inversion of a Polar Direction in a Chiral Organosuperelastic Crystal of 1,3,5-Tricyanobenzene

Superelasticitydiffusion-less plastic deformation with spontaneous shape recoverabilityhas been applied to practical uses due to its unique mechanical characteristics, e.g., reversible deformability over elastic limit, and thermally induced shape recovery, the so-called shape-memory effect. For sh...

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Veröffentlicht in:	Crystal growth & design 2020-07, Vol.20 (7), p.4621-4626
Hauptverfasser:	Sasaki, Toshiyuki, Sakamoto, Shunichi, Takamizawa, Satoshi
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Sprache:	eng
Schlagworte:	Chemistry Chemistry, Multidisciplinary Crystallography Materials Science Materials Science, Multidisciplinary Physical Sciences Science & Technology Technology
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creator	Sasaki, Toshiyuki Sakamoto, Shunichi Takamizawa, Satoshi
description	Superelasticitydiffusion-less plastic deformation with spontaneous shape recoverabilityhas been applied to practical uses due to its unique mechanical characteristics, e.g., reversible deformability over elastic limit, and thermally induced shape recovery, the so-called shape-memory effect. For shaping shape-memory alloys showing superelasticity, they are aged under severe conditions unsuitable for organic materials, e.g., heating over several hundred degrees Celsius for several minutes to hours. Here we demonstrate shaping of a chiral organosuperelastic single crystal by quick shape-memorization processing at a temperature between 20 and 170 °C. Different from conventional shape-memory alloys, superelasticity of the crystal shows a small negative temperature dependence. Inversion of a polar direction and helical axis, induced by superelastic deformation in a crystal structure with a polar point group symmetry of 2, is also noteworthy from the viewpoint of polarity-based functions. The unveiled deformability will pave the way for development of organic crystalline materials, e.g., damping materials and structural materials, in soft robots.
doi_str_mv	10.1021/acs.cgd.0c00431
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Inversion of a polar direction and helical axis, induced by superelastic deformation in a crystal structure with a polar point group symmetry of 2, is also noteworthy from the viewpoint of polarity-based functions. 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Different from conventional shape-memory alloys, superelasticity of the crystal shows a small negative temperature dependence. Inversion of a polar direction and helical axis, induced by superelastic deformation in a crystal structure with a polar point group symmetry of 2, is also noteworthy from the viewpoint of polarity-based functions. The unveiled deformability will pave the way for development of organic crystalline materials, e.g., damping materials and structural materials, in soft robots.</abstract><cop>WASHINGTON</cop><pub>American Chemical Society</pub><doi>10.1021/acs.cgd.0c00431</doi><tpages>6</tpages><orcidid>https://orcid.org/0000-0002-2849-1900</orcidid><orcidid>https://orcid.org/0000-0002-6677-3781</orcidid></addata></record>
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subjects	Chemistry Chemistry, Multidisciplinary Crystallography Materials Science Materials Science, Multidisciplinary Physical Sciences Science & Technology Technology
title	Flash Shape-Memorization Processing and Inversion of a Polar Direction in a Chiral Organosuperelastic Crystal of 1,3,5-Tricyanobenzene
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