Cation modulated spin state and near room temperature transition within a family of compounds containing the same [FeL 2 ] 2- center.

Spin-crossover (SCO) active compounds have received much attention due to their potential application in molecular devices. Herein, a family of solvent-free Fe II compounds, formulated as (A) 2 [FeL 2 ], (H 2 L = pyridine-2,6-bi-tetrazolate, A = (Me) 4 N + 1, Et 2 NH 2 + 2, i Pr 2 NH 2 + 3 and i PrNH 3 + 4), were synthesized and characterized. Single-crystal X-ray diffraction studies reveal that 1-4 are all supramolecular frameworks containing the same [FeL 2 ] 2- center, which is arranged into two packing modes via inter-molecular interactions, that is, a 3D architecture in 1 and 1D chain in 2-4. The spin states of 1-4 at different temperatures are assigned on the basis of the single-crystal X-ray diffraction data. Solid state magnetic investigations indicate that 1 and 4 exhibit a low spin state (below 350 K) and high spin state (2-400 K), respectively. 2 and 3 display clear SCO behavior in the measured temperature, but with different profiles and critical temperatures. 2 undergoes a complete gradual SCO with a critical temperature of T 1/2 = 260 K. 3 has an abrupt near room temperature transition between T 1/2 cooling = 278 K and T 1/2 warming = 286, centered at 282 K (9 °C). This study reveals the importance of organic cations in the modulation of SCO behavior and offers a new insight for the design of SCO compounds with near room temperature spin transitions.