In this study, neural stem cells were isolated from the cerebral cortices of 14-15 days embryonic Wistar rats, and propagated under serum-free medium in the presence of 20 ng /ml bFGF for 6 days. Then chitosan, poly (methyl methacrylate) (PMMA), and poly (vinylidene fluoride) (PVDF) were used as substrates to culture neurospheres under serum-free medium in the presence of 20 ng /ml bFGF or under medium with 10﹪FBS. The substrates were prepared by dry process of phase inversion method and the resulting structure of all substrates was nonporous and dense. After culturing the neurospheres on the substrates for 5 days, the neurospheres were observed by an optical electron microscope and underwent a series of experiments. From phase contrast pictures, it was found that under serum-free condition, the neurospheres adapted different morphologies and behaviors on different substrates. However, under medium with 10﹪FBS, the neurospheres exhibited the same behaviors on different substrates: the cells in the neurospheres migrated outward. Further, in the result of indirect immunocytochemical staining we found that the neurospheres could differentiate into neurons, astrocytes, and oligodendrocytes on all of the three substrates with or without the serum. Moreover, the presence or the absence of the serum in the medium did not influence the differentiation pathway of cells in the neurosphere. From the experimental results, it was concluded that same set of proteins in the FBS precipitated and covered the surfaces of each of the substrates; thus the influences of different substrates on the neurospheres almost disappeared. Further, the cells in the neurosphere exhibited the tendency to migrate outward to get in touch with the proteins that covered the substrates.