Treatment of hydrated FeCl₂ with 2 equiv. of 2,6-di(pyrazol-1-yl)pyrazine (L¹H) and AgSbF₆ in refluxing MeNO₂ yields [Fe(L¹H)₂][SbF₆]₂ (1[SbF₆]₂). This compound is fully high-spin as a powder between 5 and 300K, and exhibits a small zero-field splitting consistent with it adopting an unusual angularly distorted six-coordinate coordination geometry. Slow diffusion of Et₂O into a MeNO₂ solution of the compound gives varying proportions of three different crystal forms. Solvent-free 1[SbF₆]₂ and solvated 1[SbF₆]₂·2CH₃NO₂ are both high-spin at 150K, and have undergone the proposed angular Jahn–Teller distortion to differing extents. This is the first time that this structural distortion has been observed in an iron(II) complex of a 2,6-di(pyrazol-1-yl)pyrazine derivative. In contrast 1[SbF₆]₂·3CH₃NO₂ is low-spin at room temperature and has a regular six-coordinate geometry.