Multiferroics by Rational Design: Implementing Ferroelectricity in Molecule‐Based Magnets | Zendy

Pardo Emilio | Zendy; Train Cyrille | Zendy; Liu Hongbo | Zendy; Chamoreau LiseMarie | Zendy; Dkhil Brahim | Zendy; Boubekeur Kamal | Zendy; Lloret Francesc | Zendy; Nakatani Keitaro | Zendy; Tokoro Hiroko | Zendy; Ohkoshi Shinichi | Zendy; Verdaguer Michel | Zendy

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Multiferroics by Rational Design: Implementing Ferroelectricity in Molecule‐Based Magnets

Author(s) -

Pardo Emilio,

Train Cyrille,

Liu Hongbo,

Chamoreau LiseMarie,

Dkhil Brahim,

Boubekeur Kamal,

Lloret Francesc,

Nakatani Keitaro,

Tokoro Hiroko,

Ohkoshi Shinichi,

Verdaguer Michel

Publication year - 2012

Publication title -

angewandte chemie international edition

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 5.831

H-Index - 550

eISSN - 1521-3773

pISSN - 1433-7851

DOI - 10.1002/anie.201202848

Subject(s) - multiferroics , ferroelectricity , organic molecules , polarization (electrochemistry) , magnetization , ferromagnetism , magnet , rational design , polar , materials science , condensed matter physics , computer science , nanotechnology , physics , molecule , chemistry , optoelectronics , magnetic field , quantum mechanics , dielectric

Multiferroic materials : A novel class of multiferroics based on organic–inorganic hybrid materials is synthesized. The ferromagnetic properties originate from the coordination network, whereas the ferroelectricity results from the polar organic ions (see picture, M=magnetization and P=polarization).

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