Electrically-driven and continuous-wave operation are two challenge to photonic crystal microcavity laser, in this thesis, we design 12-fold quasi-photonic crystal microcavity on the nano-post structure with whispering-gallery mode. First, we use finite element method to simulate the heat transfer behavior of nano-post structure with different nano-post sizes and post tilted angles to investigate the thermal properties improvement by nano-post. In fabrication, we can control the nano-post size with respect to different r / a ratio and air-hole radius. Also, by measurement results with different substrate temperature and pump duty cycle, we find the larger post volume will provide better thermal properties, and it can verify the potential of nano-post structure in continuous-wave operation. Additionally, we have finished the fabrication processes of electrically-driven 12-fold QPC D2 microcavity and solved many problems in fabrication, such as the large post formation with PR filling, 12-fold quasi-photonic crystal microcavity pattern definition, nano-post formation with appropriate size, etc. In the measurement, we investigate the basic electrical properties of this structure. Besides, the electro-luminescence and photo-luminescence spectra of device are obtained and compared with each other. Finally, the electro-luminescence of whispering-gallery mode resonance at 1526 and 1545 nm are observed based on this nano-post structure.