Assembling an alkyl rotor to access abrupt and reversible crystalline deformation of a cobalt(II) complex

Sheng Qun Su; Takashi Kamachi; Zi Shuo Yao; You Gui Huang; Yoshihito Shiota; Kazunari Yoshizawa; Nobuaki Azuma; Yuji Miyazaki; Motohiro Nakano; Goro Maruta; Sadamu Takeda; Soonchul Kang; Shinji Kanegawa; Osamu Sato

doi:10.1038/ncomms9810

Assembling an alkyl rotor to access abrupt and reversible crystalline deformation of a cobalt(II) complex

Sheng Qun Su
, Takashi Kamachi
, Zi Shuo Yao
, You Gui Huang
, Yoshihito Shiota
, Kazunari Yoshizawa
, Nobuaki Azuma
, Yuji Miyazaki
, Motohiro Nakano
, Goro Maruta
, Sadamu Takeda
, Soonchul Kang
, Shinji Kanegawa
, Osamu Sato^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

77 Citations (Scopus)

Abstract

Harnessing molecular motion to reversibly control macroscopic properties, such as shape and size, is a fascinating and challenging subject in materials science. Here we design a crystalline cobalt(II) complex with an n-butyl group on its ligands, which exhibits a reversible crystal deformation at a structural phase transition temperature. In the low-temperature phase, the molecular motion of the n-butyl group freezes. On heating, the n-butyl group rotates ca. 100° around the C-C bond resulting in 6-7% expansion of the crystal size along the molecular packing direction. Importantly, crystal deformation is repeatedly observed without breaking the single-crystal state even though the shape change is considerable. Detailed structural analysis allows us to elucidate the underlying mechanism of this deformation. This work may mark a step towards converting the alkyl rotation to the macroscopic deformation in crystalline solids.

Original language	English
Article number	8810
Journal	Nature Communications
Volume	6
DOIs	https://doi.org/10.1038/ncomms9810
Publication status	Published - 4 Nov 2015
Externally published	Yes

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title = "Assembling an alkyl rotor to access abrupt and reversible crystalline deformation of a cobalt(II) complex",

abstract = "Harnessing molecular motion to reversibly control macroscopic properties, such as shape and size, is a fascinating and challenging subject in materials science. Here we design a crystalline cobalt(II) complex with an n-butyl group on its ligands, which exhibits a reversible crystal deformation at a structural phase transition temperature. In the low-temperature phase, the molecular motion of the n-butyl group freezes. On heating, the n-butyl group rotates ca. 100° around the C-C bond resulting in 6-7\% expansion of the crystal size along the molecular packing direction. Importantly, crystal deformation is repeatedly observed without breaking the single-crystal state even though the shape change is considerable. Detailed structural analysis allows us to elucidate the underlying mechanism of this deformation. This work may mark a step towards converting the alkyl rotation to the macroscopic deformation in crystalline solids.",

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T1 - Assembling an alkyl rotor to access abrupt and reversible crystalline deformation of a cobalt(II) complex

AU - Su, Sheng Qun

AU - Kamachi, Takashi

AU - Yao, Zi Shuo

AU - Huang, You Gui

AU - Shiota, Yoshihito

AU - Yoshizawa, Kazunari

AU - Azuma, Nobuaki

AU - Miyazaki, Yuji

AU - Nakano, Motohiro

AU - Maruta, Goro

AU - Takeda, Sadamu

AU - Kang, Soonchul

AU - Kanegawa, Shinji

AU - Sato, Osamu

PY - 2015/11/4

Y1 - 2015/11/4

N2 - Harnessing molecular motion to reversibly control macroscopic properties, such as shape and size, is a fascinating and challenging subject in materials science. Here we design a crystalline cobalt(II) complex with an n-butyl group on its ligands, which exhibits a reversible crystal deformation at a structural phase transition temperature. In the low-temperature phase, the molecular motion of the n-butyl group freezes. On heating, the n-butyl group rotates ca. 100° around the C-C bond resulting in 6-7% expansion of the crystal size along the molecular packing direction. Importantly, crystal deformation is repeatedly observed without breaking the single-crystal state even though the shape change is considerable. Detailed structural analysis allows us to elucidate the underlying mechanism of this deformation. This work may mark a step towards converting the alkyl rotation to the macroscopic deformation in crystalline solids.

AB - Harnessing molecular motion to reversibly control macroscopic properties, such as shape and size, is a fascinating and challenging subject in materials science. Here we design a crystalline cobalt(II) complex with an n-butyl group on its ligands, which exhibits a reversible crystal deformation at a structural phase transition temperature. In the low-temperature phase, the molecular motion of the n-butyl group freezes. On heating, the n-butyl group rotates ca. 100° around the C-C bond resulting in 6-7% expansion of the crystal size along the molecular packing direction. Importantly, crystal deformation is repeatedly observed without breaking the single-crystal state even though the shape change is considerable. Detailed structural analysis allows us to elucidate the underlying mechanism of this deformation. This work may mark a step towards converting the alkyl rotation to the macroscopic deformation in crystalline solids.

UR - https://www.scopus.com/pages/publications/84946607214

U2 - 10.1038/ncomms9810

DO - 10.1038/ncomms9810

M3 - Article

AN - SCOPUS:84946607214

SN - 2041-1723

VL - 6

JO - Nature Communications

JF - Nature Communications

M1 - 8810

ER -

Assembling an alkyl rotor to access abrupt and reversible crystalline deformation of a cobalt(II) complex

Abstract

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