ABSTRACT: Solvent effects in a series of Fe(iii) spin crossover (SCO) complexes [Fe(qsal-I)₂]OTf·sol (sol = MeOH 1, EtOH 2, n-PrOH 3, i-PrOH 4, acetone 5 and MeCN 6) are explored. SCO is abrupt in 1 (following MeOH loss) and 2, gradual for 3 (T_1/2 = 199 K) and 4 (T_1/2 = 251 K) and incomplete, even up to 350 K, for 5 and 6. In [Fe(qsal-I)₂]OTf SCO occurs at T_1/2? = 225 K and T_1/2? = 234 K (?T = 9 K), while aged samples of 2 exhibit an exceptionally wide hysteresis of 80 K (T_1/2? = 139 K and T_1/2? = 219 K). In contrast, fresh samples of 2 exhibit stepped SCO with hysteresis varying from 2 to 42 K. VT-PXRD (variable temperature powder X-ray diffraction) studies indicate a new phase, 2b, is formed upon cooling below 180 K along with a minor LS phase 2c. Phase 2c and the HS phase 2a undergo a spin transition at T_1/2? = 180 K and T_1/2? = 215 K with phase 2b exhibiting two-step SCO. Structural studies in both spin states, except 6, show the cations are linked through extensive ?-? interactions to form 1D chains. A combination of P4AE (parallel fourfold aryl embrace) and I···X (X = I, O, ?) interactions create tightly packed 3D supramolecular networks. This study emphasizes that while solvent may result in only small structural changes SCO characteristics can be impacted dramatically.