Add to ORKGJournal ArticleIntroduction Magnets based on metal oxides have been important for hundreds of years. Magnetite, Fe3O4, Co-doped (y)-Fe2O3, and CrO2 are important examples. The oxide (O2-) bridge between the magnetic metal ions has filled p orbitals (Figure 1a) that provide the pathway for strong spin coupling. Albeit with twice as many atoms, cyanide (C=(_)N(-) can bridge between two metal ions via its pair of empty antibonding orbitals (Figure 1b) and filled nonbonding orbitals. Even prior to a detailed understanding of either their composition or structure, magnetic ordering of several cyanide complexes, although at low temperature, was noted.(1
The simple, well-understood coordination chemistry of the cyanide ligand is of significant utility i...
The 2D honeycomb-like layered iron(iii)–nickel(ii) cyanidebridged complex [Ni(cyclam)]3[Fe(CN)6]2·nH...
The 2D honeycomb-like layered iron(iii)–nickel(ii) cyanidebridged complex [Ni(cyclam)]3[Fe(CN)6]2·nH...
Solids related to Prussian blue (FeII,3lFen(CN)6]2,JcH20) are shown to be ideal candidates for the ...
Solids related to Prussian blue (FeII,3lFen(CN)6]2,JcH20) are shown to be ideal candidates for the ...
The work presented herein focuses on the synthesis and characterization of new cyanide bridged molec...
The field of molecule-based magnets is a relatively new branch of chemistry, which involves the desi...
The cyanide ligand allows the formation of bridges between neighboring transition metals, T-N-C-M, t...
Ferric ferrocyanide (Prussian blue) and its analogues are renowned for the variety of properties and...
The field of molecule-based magnets is a relatively new branch of chemistry, which involves the desi...
International audiencePentanuclear cyanide-bridged clusters of the general formula {[M(tmphen)(2)](3...
AbstractMagnetic data are reported for Prussian Blue Analogs (PBAs) of composition M3[M′(C,N)6]2·xH2...
The work herein describes the design, synthesis, and characterization of magnetic molecules and chai...
Expalining the magnetism in cyanide-based magnets: The origin of ferromagnetism (F) in the recently ...
A pressure-induced linkage isomerization of the cyanide anion has been observed in single crystals o...
The simple, well-understood coordination chemistry of the cyanide ligand is of significant utility i...
The 2D honeycomb-like layered iron(iii)–nickel(ii) cyanidebridged complex [Ni(cyclam)]3[Fe(CN)6]2·nH...
The 2D honeycomb-like layered iron(iii)–nickel(ii) cyanidebridged complex [Ni(cyclam)]3[Fe(CN)6]2·nH...
Solids related to Prussian blue (FeII,3lFen(CN)6]2,JcH20) are shown to be ideal candidates for the ...
Solids related to Prussian blue (FeII,3lFen(CN)6]2,JcH20) are shown to be ideal candidates for the ...
The work presented herein focuses on the synthesis and characterization of new cyanide bridged molec...
The field of molecule-based magnets is a relatively new branch of chemistry, which involves the desi...
The cyanide ligand allows the formation of bridges between neighboring transition metals, T-N-C-M, t...
Ferric ferrocyanide (Prussian blue) and its analogues are renowned for the variety of properties and...
The field of molecule-based magnets is a relatively new branch of chemistry, which involves the desi...
International audiencePentanuclear cyanide-bridged clusters of the general formula {[M(tmphen)(2)](3...
AbstractMagnetic data are reported for Prussian Blue Analogs (PBAs) of composition M3[M′(C,N)6]2·xH2...
The work herein describes the design, synthesis, and characterization of magnetic molecules and chai...
Expalining the magnetism in cyanide-based magnets: The origin of ferromagnetism (F) in the recently ...
A pressure-induced linkage isomerization of the cyanide anion has been observed in single crystals o...
The simple, well-understood coordination chemistry of the cyanide ligand is of significant utility i...
The 2D honeycomb-like layered iron(iii)–nickel(ii) cyanidebridged complex [Ni(cyclam)]3[Fe(CN)6]2·nH...
The 2D honeycomb-like layered iron(iii)–nickel(ii) cyanidebridged complex [Ni(cyclam)]3[Fe(CN)6]2·nH...