Various applications of surface structure patterning, such as nano-sphere lithography and photonic crystal planting are regarded to be obvious ways of manipulating emission profile and improving light extraction. However, there are still some issues and characteristics beyond through investigation. Such characteristics are morphology-related radiation properties of multi-structure LEDs, and interactions of anisotropic polarized emission and photonic crystals on non-polar LEDs. These are the focuses of our researches. In the first part, for vertical LED, a two-step surface patterning hybrid structure is applied based on investigations on single-structure LED and simulations. The results suggest that light will emit to various angles while interacting with distinct single-structure LEDs. As for the hybrid structure, two fractions of guiding modes are diffracted out by either nanorods or truncated microdomes. The percentage of emission enhancement of hybrid structure happens to be the superposition of enhancements of both single-structure LEDs at a certain range in angle. The result illustrates a way of manipulating emission directions and the way of adjusting radiation profile by variations of parameters of single-structure morphology. In the second part, for a-plane LED, an array of rectangular photonic crystals is planted. According to the intrinsic property of anisotropic polarized emission of a-plane LEDs, we align the photonic crystals in specific way to enhance the degree of polarization and the diffractions on different axes. Emission contours are mapped to verify the massive diffraction on E//m modes and rather inferior diffraction on E//c modes. The emission directions of diffraction are also implied by the contours and show agreement to the radiation profile measurements. Furthermore, we replace intensity by polarization ratio in the mapped contours. Their stronger ratio locations show overlap with the E//m mode diffraction in the emission contours. The result show that with E//m modes being the dominant diffraction by photonic crystals, the polarization ratio and light extraction of a-plane LED can be improved significantly as well as the diffraction characteristics can be adjusted by varying the period of photonic crystals.