The hot roller embossing is an efficient process to continuously imprint microstructures on polymer film. Therefore, the concept of using hot roller to replicate polymer film opens up new opportunities in microfluidics application； In addition, hot roller embossing process present several advantages of making flexible polymer film in reel-to-reel format to increase throughput and reduce fabrication cost. Therefore, applying hot roller embossing to fabricate micro-parts draws lots of research interests in recent years. In this thesis, we demonstrated the development of the embossing roll with geometries stamps of micron scales and we tried to employ the embossing roll mould by using the lithography process. The thesis discusses the effects of process parameters such as roller embossing temperature, loading force and rolling speed to the resulting polymer film morphology and depth variation from thermal deformation and shear stress deformation. An optimized process parameter was also investigated from the systematic process parameter research. Finally, a micromixer design was demonstrated to evaluate the hot roller embossing process feasibility in microfluidic application.