Until today, many studies have proven that attachment and proliferation of cells can be enhanced by adding hyaluronan into the experimental materials. With the advantages of good biocompatibility and functional group modification for both chitosan and hyaluronan, fabricating them into nanofibrous structures like extracellular matrix may improve their applications in biomedical field. So the aim of this research is to fabricate hyaluronan/chitosan/polyvinyl alcohol (HA/CS/PVA, or H/C/P) composite nanofibers by electrosinning. In following experiments, the material concentrations, material ratios, feed flow rates and applied voltages were varied to investigate the best parameters for electrospinning. According to the results, thermal analysis indicated that HA and CS in the fabricated composite nanofibrous mats were mixed homogeneously without obvious phase separation. The spectrum from FT-IR also showed no alteration of functional groups. In this research, the hyaluronan/chitosan/polyvinyl alcohol nanofibrous mats were successfully fabricated. It is expected that such composite mats can be applied in tissue engineering-related fields in the future.