Textile dye wastewater with high salinity is directly discharge every year, causing serious environmental pollution and water resource waste. Consequently, it is imperative to design effective approaches for dye recycle and selective dye/inorganic salt separation from textile dye waste water. However, traditional technologies, such chemical degradation and adsorption, are inadequate for this purpose. Nanofiltration (NF) technology becomes an attractive alternative for effective removal of textile dyes from wastewater and dye desalination due to its environment friendliness and low energy consumption. In recent years, in order to achieve efficient nanofiltration, porous fillers were utilized to prepare the mixed matrix membranes (MMMs). Herein, SBA⊥15, a mesoporous thin film with perpendicular nanochannel, was selected as a filler and mixed with chitosan polymer as nanofiltration membranes. By functionalizing amino and epoxy groups into SBA⊥15, respectively, covalent bonds between amine-functionalized, epoxy-functionalized SBA⊥15 (SBA⊥15-NH2 and SBA⊥15-Epo) with chitosan were formed so as to improve the compatibility between SBA⊥15 and polymer. As a result, SBA⊥15-Epo/Chitosan MMM demonstrates superior nanofiltration performance for various dye molecules with a cut off of 585 g/mol and improved water permeance compared with chitosan membrane. Besides, the excellent performance in selective separation of dye/salt in mixed solution was demonstrated, with 99.9% rejection of Congo red and 85% permeation of NaCl. Thus, the SBA⊥15-Epo/Chitosan is highly potential in purification of textile dye wastewater.