Facing the challenge of global warming and environmental concern, the development of green luminescent materials has been an important issue in phosphors research. This research is attempted to develop environmental friendly ultraviolet-emitting materials, particularly those are not disclosed previously in the literature and excitable with xenon excimer discharge devices, for the applications of phototherapy, sterilization, and disinfection. We have explored and investigated the luminescence mechanism of several series of UV-emitting phosphors, including rare earth-doped aluminates, borates, and phosphates. In addition to X-ray diffraction technique and electron microscopy, the vacuum ultraviolet (VUV) light source provided by National Synchrotron Radiation Research Center (NSRRC) has been used to explore and investigate the luminescence of UV-emitting phosphors, such as UVA-emitting Na(Y,Ce)FPO4; UVB-emitting (Y,Gd,Pr)P3O9, Na(Y,Gd,Pr)FPO4, and Ca(Y,Pr)Al3O7 and UVC-emitting (Y,Pr)P3O9, Na(Y,Pr)FPO4 and KCa(Y,Pr)(PO4)2. Under excitation at 254 nm, Na(Y,Ce)FPO4 emits UVA radiation centered at 351 nm, which is attributed to the 4f1→5d1 transition of Ce3+. Under excitation at 172 nm, (Y,Gd,Pr)YP3O9 and Na(Y,Gd,Pr)FPO4 were found to emit UVB light centered at 313 nm which was attributed to the 6P7/2→8S7/2 of Gd3+.Under VUV excitation, Ca(Y,Pr)Al3O7, (Y,Pr)P3O9, KCaY(PO4)2, and Na(Y, Pr)FPO4 were found to emit UVC light, which was found to be due to the 4f15d1 →4f 2 (3HJ,J=4,5,6) transition of Pr3+. The emission wavelength of all types of UV radiation was found to be crucially dependent on the bonding and crystal structure of the host matrix.