Cobalt( II )–Copper( II ) Bimetallic Chains as a New Class of Single‐Chain Magnets | Zendy

Pardo E. | Zendy; RuizGarcía R. | Zendy; Lloret F. | Zendy; Faus J. | Zendy; Julve M. | Zendy; Journaux Y. | Zendy; Delgado F. | Zendy; RuizPérez C. | Zendy

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Cobalt( II )–Copper( II ) Bimetallic Chains as a New Class of Single‐Chain Magnets

Author(s) -

Pardo E.,

RuizGarcía R.,

Lloret F.,

Faus J.,

Julve M.,

Journaux Y.,

Delgado F.,

RuizPérez C.

Publication year - 2004

Publication title -

advanced materials

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 10.707

H-Index - 527

eISSN - 1521-4095

pISSN - 0935-9648

DOI - 10.1002/adma.200400253

Subject(s) - ferrimagnetism , bimetallic strip , cobalt , copper , chain (unit) , heavy chain , class (philosophy) , magnet , materials science , denticity , relaxation (psychology) , single chain , nanotechnology , combinatorial chemistry , polymer chemistry , chemistry , computer science , physics , biochemistry , electrical engineering , metal , metallurgy , magnetic field , engineering , magnetization , biology , neuroscience , antibody , quantum mechanics , immunology , astronomy , artificial intelligence , gene

An oxamato‐bridged Co II Cu II chain compound has been obtained via the self‐assembly of mononuclear bis‐bidentate copper( II ) anionic building blocks and cobalt( II ) cations. It is the first example of a heterobimetallic ferrimagnetic chain that incorporates slow magnetic relaxation behavior (see Figure).

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