This study presents a novel concept of design and fabrications of an ultra-small engine, the configuration refers to Wankel engine. The engine operates with the temperature difference which refers to the concept of Stirling engine. There are three size have been 10 mm × 5.3 mm, and 5 mm × 2.65 mm. First through the ANSYS simulation analysis, thermal conduction was observed before the second generation. After changing the material parameters of the previous two generations, the author observes whether to change the heat transfer way, and access to micro-rotor design direction for the new generation of engines. That is the integration of heterogeneous materials and processes for this micro-rotor engine. The subsequent MEMS technology are to produce silicon wafer mold cavity by ICP and turn the master model, to poly dimethyl siloxane (PDMS). The production of glass rotor is done by laser cutting. Finally, with using oxygen plasma treatment, the author bond the PDMS and the silicon wafer cavity. To prevent leakage the engine was coated with parylene outside. On the testing stage, the author applied ultrasonic cleaning machine to shake the rotor without sticking to the surface of PDMS or Pyrex 7740. After the home-made test facility of heating and cooling-side, the micro-rotor engine with heterogeneous materials can be tested to verify whether the temperature difference between the device can drive the rotor.