Developing high-performance microscale-energy storage devices is essential for next-generation smart electronics. Hybrid conducting polymers (HCPs) offer a promising solution to address the limitations of traditional conducting polymers, with poor cycling and mechanical stability. Here, we present a novel, template-free bicontinuous microemulsion (BME)-based method of fabricating highly cross-linked, continuously porous PPy-CoO electrodes for micro-pseudocapacitors (MPCs). The bicontinuous structure endows HCPs with tunable functionalities, mechanical flexibility, and efficient ion transport. The synergy between PPy's fast charge transfer and CoO's high charge-storage capacity boosts the electrochemical performance of device, with excellent areal capacitance of 30.58 mF cm