Extensive searches for new monovalent metal borates as promising nonlinear optical materials continuously provide new exciting results. Attempts to add the iodine end-member of the acentric Na3B4O7X family resulted in a compound with a complex twofold monoclinic superstructure, Na17B24O42I5. As for the lighter-halide analogies, its crystal structure is formed by a 12B:∞3[3(4:2Δ + 2T)] framework of B4O9 tetraborate groups, 4B:2Δ2□:=, yet the guest metal-halide sublattice is less dense and contains 5 NaI per 6 Na2B4O7 formula units, most likely due to the large size of the iodide ion. Upon heating in the presence of excess NaI, Na17B24O42I5 converts into a simple hexagonal Na3B4O7I structure, completely analogous to Na3B4O7Br, which exists above 444 °C.