The synthesis of 4-methyl-2,6-di(pyrazol-l-yl)-pyridine (L) and four salts of [FeL2]X-2 (X- = BF4-, 1; X- = ClO4-, 2; X- = PF6-, 3; X- = CF3SO3-, 4) are reported. Powder samples of 1 and 2 both exhibit abrupt, hysteretic spin-state transitions on cooling, with T-1/2 down arrow = 204 and T-1/2 up arrow = 209 K (1), and T-1/2 down arrow, = 175 and T-1/2 up arrow = 193 K (2). The 18 K thermal hysteresis loop for 2 is unusually wide for a complex of this type. Single crystal structures of 2 show it to exhibit a Jahn-Teller-distorted six-coordinate geometry in its high-spin state, which would normally inhibit spin-crossover. Bulk samples of 1 and 2 are isostructural by X-ray powder diffraction, and undergo a crystallographic phase change during their spin-transitions. At temperatures below T-1/2, exposing both compounds to 10(-5) Ton pressure inside the powder diffractometer causes a reversible transformation back to the high-temperature crystal phase. Consideration of thermodynamic data implies this cannot be accompanied by a low -> high spin-state change, however. Both compounds also exhibit the LIESST effect, with 2 exhibiting an unusually high T(LIESST) of 112 K. The salts 3 and 4 are respectively high-spin and low-spin between 3 and 300 K, with crystalline 3 exhibiting a more pronounced version of the same Jahn-Teller distortion.