The optical reflective spectra and microstruc-tures of polystyrene opal photonic crystals treated with different temperatures have been investigated. With temperature increasing, the polystyrene spheres in opal structure transform to dodecahedrons, and the peak of reflective spectrum moves to shorter wavelength. The experiment result testifies the effect of the effective refractive index and the filling ratio to the bandgap position, and it corresponds to the theoretical simulative result. The optical reflective spectra and microstruc-tures of polystyrene opal photonic crystals treated with different temperatures have been investigated. With temperature increasing, the polystyrene spheres in opal structure transform to dodecahedrons, and the peak of reflective spectrum moves to shorter wavelength. the effect of the effective refractive index and the filling ratio to the bandgap position, and it corresponds to the theoretical simulative result.