Frontispiece: A Bistable Microelectromechanical System Actuated by Spin‐Crossover Molecules | Zendy

ManriqueJuarez Maria D. | Zendy; Mathieu Fabrice | Zendy; Shalabaeva Victoria | Zendy; Cacheux Jean | Zendy; Rat Sylvain | Zendy; Nicu Liviu | Zendy; Leïchlé Thierry | Zendy; Salmon Lionel | Zendy; Molnár Gábor | Zendy; Bousseksou Azzedine | Zendy

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Frontispiece: A Bistable Microelectromechanical System Actuated by Spin‐Crossover Molecules

Author(s) -

ManriqueJuarez Maria D.,

Mathieu Fabrice,

Shalabaeva Victoria,

Cacheux Jean,

Rat Sylvain,

Nicu Liviu,

Leïchlé Thierry,

Salmon Lionel,

Molnár Gábor,

Bousseksou Azzedine

Publication year - 2017

Publication title -

angewandte chemie international edition

Language(s) - English

Resource type - Reports

SCImago Journal Rank - 5.831

H-Index - 550

eISSN - 1521-3773

pISSN - 1433-7851

DOI - 10.1002/anie.201782861

Subject(s) - bistability , microelectromechanical systems , spin crossover , cantilever , bending , crossover , ferrous , spin (aerodynamics) , ion , materials science , condensed matter physics , spin states , molecule , nanotechnology , optoelectronics , physics , computer science , composite material , metallurgy , thermodynamics , quantum mechanics , artificial intelligence

Microelectromechanical Systems In their Communication on page 8074 ff. G. Molnár, A. Bousseksou et al. describe a microelectromechanical element actuated by a spin‐crossover ferrous complex. Switching from low‐ to high‐spin state of the ferrous ions leads to reversible bending of a cantilever.

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