由自旋交叉分子驱动的双稳态微机电系统。

A Bistable Microelectromechanical System Actuated by Spin-Crossover Molecules.

机构信息

LCC, CNRS and Université de Toulouse, UPS, INP, 31077, Toulouse, France.

LAAS, CNRS and Université de Toulouse, INSA, UPS, 31077, Toulouse, France.

出版信息

Angew Chem Int Ed Engl. 2017 Jul 3;56(28):8074-8078. doi: 10.1002/anie.201702739. Epub 2017 May 10.

DOI:10.1002/anie.201702739

PMID:28488415

Abstract

We report on a bistable MEMS device actuated by spin-crossover molecules. The device consists of a freestanding silicon microcantilever with an integrated piezoresistive detection system, which was coated with a 140 nm thick film of the [Fe(HB(tz) ) ] (tz=1,2,4-triazol-1-yl) molecular spin-crossover complex. Switching from the low-spin to the high-spin state of the ferrous ions at 338 K led to a reversible upward bending of the cantilever in agreement with the change in the lattice parameters of the complex. The strong mechanical coupling was also evidenced by the decrease of approximately 66 Hz in the resonance frequency in the high-spin state as well as by the drop in the quality factor around the spin transition.

摘要

我们报告了一种由自旋交叉分子驱动的双稳态微机电系统（MEMS）器件。该器件由一个自由站立的硅微悬臂梁和一个集成的压阻检测系统组成，悬臂梁上涂有一层 140nm 厚的Fe(HB(tz))分子自旋交叉配合物薄膜。亚铁离子从低自旋态到 338K 的高自旋态的转变导致悬臂梁发生可逆的向上弯曲，这与配合物晶格参数的变化一致。高自旋态下共振频率降低约 66Hz，以及自旋转变周围品质因数的下降，也证明了这种强烈的机械耦合。

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由自旋交叉分子驱动的双稳态微机电系统。

A Bistable Microelectromechanical System Actuated by Spin-Crossover Molecules.

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由自旋交叉分子驱动的双稳态微机电系统。

A Bistable Microelectromechanical System Actuated by Spin-Crossover Molecules.

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