Abstract White light-emitting diodes (LEDs) have been regarded as the most important next-generation light source and have the great potential to replace the traditional lighting. To meet the practical need in the solid state lighting, the characteristic of high luminous efficiency and uniform angular-dependent correlated color temperature (CCT) become two major challenges for white LEDs. In thesis, we divided into two parts. First of all, we propose the hybrid structure with high lumen efficiency and color uniformity in warm white LED. After that, the angular CCT deviation is reduced to 280K by capping the DBR structure is demonstrated in cool white light emitting diode. In first section, we propose the hybrid structure with high lumen efficiency and uniform angular-dependent correlated color temperature (CCT) for warm white LED.The experimental results indicate that the hybrid structure yielded higher lumen efficiency than conventional phosphor structure because of the suitable refractive index difference from the coating layer to the dispense layer. Moreover, the CCT deviations value of the hybrid phosphor structure could be reduced to and 25K in range of -70 to 70 degrees. This is attributed to the uniform color mixing of the blue, yellow and red band in the hybrid phosphor structure. As the result, the technology of the hybrid structure with high lumen efficiency and uniform angular-dependent CCT is suitable to use in the general lighting market. In second section, we demonstrate the application of DBR structure into the remote phosphor structure improves the angular correlated color temperature (CCT) deviation in white light-emitting diodes (WLEDs). In the experiment, the LED device with DBR structureyieldedahigher luminous efficiency than a conventional structure. This result indicated that the CCT deviation can be improved from 1758K to 280K in a range of -70 to 70 degree and the brightness is also upgrading, the luminous flux increases more than 10% due to the enhancement of the light extraction of the blue light. Moreover, the reflectance of the different DBR structure between the wavelength and the view anglewereverified in this research. As the result, this LED device with DBR structure shows the great potential to use as the next generation lighting source.