Most solid-state materials are composed of p-block anions, only in recent years the introduction of hydride anions (1s ) in oxides (e.g., SrVO H, BaTi(O,H) ) has allowed the discovery of various interesting properties. Here we exploit the large polarizability of hydride anions (H ) together with chalcogenide (Ch ) anions to construct a family of antiperovskites with soft anionic sublattices. The M HCh antiperovskites (M = Li, Na) adopt the ideal cubic structure except orthorhombic Na HS, despite the large variation in sizes of M and Ch. This unconventional robustness of cubic phase mainly originates from the large size-flexibility of the H anion. Theoretical and experimental studies reveal low migration barriers for Li /Na transport and high ionic conductivity, possibly promoted by a soft phonon mode associated with the rotational motion of HM octahedra in their cubic forms. Aliovalent substitution to create vacancies has further enhanced ionic conductivities of this series of antiperovskites, resulting in Na H(Se I ) achieving a high conductivity of ~1 × 10 S/cm (100 °C). 2 – 2– – + + –4 2 3 3 3 6 2.9 0.9 0.1