The spin states of iron(II) complexes of 1-bpp derivatives bearing tether group substituents are controlled by the electronic properties of the linker functional group
The molecular structures and magnetic properties of homoleptic iron(II) compounds [Fe(bpp-COOMe)2](C...
Different isomers of the title ligands coordinate to iron(II) in monodentate or tridentate fashion, ...
The solution-phase spin-crossover temperature in iron(II)/4-alkylsulfanyl-2,6-di{pyrazol-1-yl}pyridi...
Two series of the title compounds have been prepared. Solid materials with longer chain substituents...
[Fe(1-bpp)2][BF4]2 derivatives with four long chain alkyl substituents show an irreversible low→high...
Seven derivatives of [FeL2]2+ (L = 2,4-di{pyrazol-1-yl}-1,3,5-triazine) are all high-spin. DFT calcu...
Homochiral [Fe((R)-LPh)2]2+ (LPh = 2,6-bis{4-phenyloxazolinyl}pyridine) undergoes spin-crossover in ...
Diastereomeric [Fe(L1R)2][ClO4]2 (R = Ph, iPr) iron(II)/ThioPyBox derivatives show a larger discrimi...
Solvated crystals of “[FeL2][BF4]2·H2O” (L = 2-(1,2,4-triazol-1-yl)-6-(pyrazol-1-yl)pyridine) contai...
The synthesis of six 2,6-di(pyrazol-1-yl)pyridine derivatives bearing dithiolane or carboxylic acid ...
Two [{FeIII(OH2)6}Fe8(μ-L)12][BF4]7 cubane assemblies (L = a 4,6-pyrazolylpyrimid-2-one derivative) ...
A diiron(II) complex has been crystallised in three different helicate conformations, which differ i...
[FeL2]X2 ( L = 2,6-di{4-fluoropyrazol-1-yl}pyridine) exhibit hysteretic spin-transitions at T½ = 164...
The computed energy profile of the angular Jahn-Teller distortion that is often shown by high-spin [...
The influence of ligands on the spin state of a metal ion is of central importance for bioinorganic ...
The molecular structures and magnetic properties of homoleptic iron(II) compounds [Fe(bpp-COOMe)2](C...
Different isomers of the title ligands coordinate to iron(II) in monodentate or tridentate fashion, ...
The solution-phase spin-crossover temperature in iron(II)/4-alkylsulfanyl-2,6-di{pyrazol-1-yl}pyridi...
Two series of the title compounds have been prepared. Solid materials with longer chain substituents...
[Fe(1-bpp)2][BF4]2 derivatives with four long chain alkyl substituents show an irreversible low→high...
Seven derivatives of [FeL2]2+ (L = 2,4-di{pyrazol-1-yl}-1,3,5-triazine) are all high-spin. DFT calcu...
Homochiral [Fe((R)-LPh)2]2+ (LPh = 2,6-bis{4-phenyloxazolinyl}pyridine) undergoes spin-crossover in ...
Diastereomeric [Fe(L1R)2][ClO4]2 (R = Ph, iPr) iron(II)/ThioPyBox derivatives show a larger discrimi...
Solvated crystals of “[FeL2][BF4]2·H2O” (L = 2-(1,2,4-triazol-1-yl)-6-(pyrazol-1-yl)pyridine) contai...
The synthesis of six 2,6-di(pyrazol-1-yl)pyridine derivatives bearing dithiolane or carboxylic acid ...
Two [{FeIII(OH2)6}Fe8(μ-L)12][BF4]7 cubane assemblies (L = a 4,6-pyrazolylpyrimid-2-one derivative) ...
A diiron(II) complex has been crystallised in three different helicate conformations, which differ i...
[FeL2]X2 ( L = 2,6-di{4-fluoropyrazol-1-yl}pyridine) exhibit hysteretic spin-transitions at T½ = 164...
The computed energy profile of the angular Jahn-Teller distortion that is often shown by high-spin [...
The influence of ligands on the spin state of a metal ion is of central importance for bioinorganic ...
The molecular structures and magnetic properties of homoleptic iron(II) compounds [Fe(bpp-COOMe)2](C...
Different isomers of the title ligands coordinate to iron(II) in monodentate or tridentate fashion, ...
The solution-phase spin-crossover temperature in iron(II)/4-alkylsulfanyl-2,6-di{pyrazol-1-yl}pyridi...
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