Spin Crossover in a Hexaamineiron(II) Complex: Experimental Confirmation of a Computational Prediction

Abstract: Single crystal structural analysis of [FeII(tame)2]Cl2⋅MeOH (tame=1,1,1‐tris(aminomethyl)ethane) as a function of temperature reveals a smooth crossover between a high temperature high‐spin octahedral d 6 state and a low temperature low‐spin ground state without change of the symmetry of the crystal structure. The temperature at which the high and low spin states are present in equal proportions is T 1/2=140 K. Single crystal, variable‐temperature optical spectroscopy of [FeII(tame)2]Cl2⋅MeOH is consistent wit… Show more

“…This is supported by weak O−H…Br H−bonds (H…Br 2.75 Å; O…Br 3.30(2) Å) along the c axis. Given disorder of the MeOH over 6 symmetry related positions and the uncertainty in the position of the hydroxyl H−atom these assignments are not definitive, but appear to be correct and in contrast to our previous report [4] where the orientation of the MeOH was reversed.…”

“…This compound emerged as the most likely contender, from a series of hexaamineiron(II) compounds, to show SCO. This theoretical prediction proved to be correct and the compound [Fe(tame) 2 ]Cl 2 .MeOH showed a solid state, temperature‐dependent HS/LS interconversion [4] which validated a theoretical chemistry‐led approach to SCO compounds.…”

“…This results in two non–degenerate conformers of the [Fe(tame) 2 ] 2+ complex cation: D 3 symmetric rac (λλ which is enantiomeric with δδ) and S 6 symmetric meso (λδ which is identical to δλ). A recently published [4] DFT analysis of [Fe(tame) 2 ] 2+ and a much earlier molecular mechanics study of isoelectronic [Co(tame) 2 ] 3+ (low spin) [9] have concluded that the meso λδ conformer and the rac λλ/δδ conformer are close in energy. In fact the crystal structure of [Co(tame) 2 ] 3+ as its toluenesulfonate salt revealed both conformers within the same structure [10] .…”

“…Given the incomplete SCO in this case, no thermodynamic data associated with the spin transition were pursued through the so‐called Slichter‐Drickamer model [11] . By contrast at 60 K [Fe(tame) 2 Cl 2 .MeOH is >95 % LS on the basis of both temperature dependent crystallographic data and single crystal optical absorption spectroscopy [4] …”

“…The influence of counter ions on the coordinate bond lengths of [Fe(tame) 2 ] 2+ was considered previously with DFT calculations, [4] which indicated that the Fe–N bond lengths within the [Fe(tame) 2 ]Cl 2 .MeOH lattice were compressed by cation‐anion interactions that assist the HS→LS transition. The data in Figure 3 confirm that the HS Fe−N bond length in [Fe(tame) 2 ]Cl 2 .MeOH (ca.…”

Temperature and Counterion Dependent Spin Crossover in a Hexaamineiron(II) Complex

“…This is supported by weak O−H…Br H−bonds (H…Br 2.75 Å; O…Br 3.30(2) Å) along the c axis. Given disorder of the MeOH over 6 symmetry related positions and the uncertainty in the position of the hydroxyl H−atom these assignments are not definitive, but appear to be correct and in contrast to our previous report [4] where the orientation of the MeOH was reversed.…”

“…This compound emerged as the most likely contender, from a series of hexaamineiron(II) compounds, to show SCO. This theoretical prediction proved to be correct and the compound [Fe(tame) 2 ]Cl 2 .MeOH showed a solid state, temperature‐dependent HS/LS interconversion [4] which validated a theoretical chemistry‐led approach to SCO compounds.…”

“…This results in two non–degenerate conformers of the [Fe(tame) 2 ] 2+ complex cation: D 3 symmetric rac (λλ which is enantiomeric with δδ) and S 6 symmetric meso (λδ which is identical to δλ). A recently published [4] DFT analysis of [Fe(tame) 2 ] 2+ and a much earlier molecular mechanics study of isoelectronic [Co(tame) 2 ] 3+ (low spin) [9] have concluded that the meso λδ conformer and the rac λλ/δδ conformer are close in energy. In fact the crystal structure of [Co(tame) 2 ] 3+ as its toluenesulfonate salt revealed both conformers within the same structure [10] .…”

“…Given the incomplete SCO in this case, no thermodynamic data associated with the spin transition were pursued through the so‐called Slichter‐Drickamer model [11] . By contrast at 60 K [Fe(tame) 2 Cl 2 .MeOH is >95 % LS on the basis of both temperature dependent crystallographic data and single crystal optical absorption spectroscopy [4] …”

“…The influence of counter ions on the coordinate bond lengths of [Fe(tame) 2 ] 2+ was considered previously with DFT calculations, [4] which indicated that the Fe–N bond lengths within the [Fe(tame) 2 ]Cl 2 .MeOH lattice were compressed by cation‐anion interactions that assist the HS→LS transition. The data in Figure 3 confirm that the HS Fe−N bond length in [Fe(tame) 2 ]Cl 2 .MeOH (ca.…”

Temperature and Counterion Dependent Spin Crossover in a Hexaamineiron(II) Complex

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