A serials of Zn-2(BO3)(OH)(0.75)F-0.25 (ZBF), Tb3+, Ce3+/4+ single-doped ZBF and Tb3+/Ce3+/4(+) co-doped ZBF novel phosphors with belt-like morphology were obtained through hydrothermal reaction without any surfactant. The obtained samples were characterized by XRD, SEM, EDS, TEM, TGA, XPS, DR, PL, and DT. The TGA curve shows that the phosphor is thermal stability. XPS results show that Tb3+ is present in the Tb-doped phosphor, and the Ce3+/Ce4+ mixed valence is present in the Ce-doped phosphor. The PL results indicate that ZBF host material and ZBH:Ce3+/(4+) can emit blue light, ZBF:Tb3+ can emit green light. Compared with the Tb3+ single doped phosphor, the Tb3+/Ce3+/(4+) co-doped phosphors shown stronger emission and shorter decay time, which is attributed to the effective energy transfer from the Ce3+/(4+) to Tb3+ ions. (C) 2019 The Society of Powder Technology Japan. Published by Elsevier B.V. and The Society of Powder Technology Japan. All rights reserved.