White LEDs are generally manufactured by a combination of blue or near-UV LED chips with R/G/B phosphor. We attempted to sinter new kind of thiosilicate phosphors as host matrices because of a relatively low sintering temperature and various luminescence wavelengths from blue to infrared. In this study, we have synthesized several new Ce3+-activated phosphors with La2SiS5, La6Si4S17 and La3Cl(SiS4)2 by using solid-state method in evacuated sealed quarz glass tubes. The excitation band of three Ce3+-doped phosphors are in the range of near-UV to blue, and the emission wavelengths are in the visible range between 470 nm to 520 nm. It is suitable for fabrication of white-light emitting diodes (WLED). We have also reported the optimization of synthetic conditions, the analysis results using XRD, electron microscopy to investigate microstructures, the characterized photoluminescence spectroscopy, quantum efficiency, diffuse reflection spectrometry and thermal luminescence quenching measurements. Finally, we evaluated the potential applications of fabricated WLEDs using the phosphors we synthesized in combination with respective LED chips.