Photodynamic therapy (PDT) is a promising new treatment for cancer that has been recently accepted clinically. PDT is based on the administration of tumor-localizing photosensitizers (PSs), followed by exposing the neoplastic area to the light absorbed by the PS. In this article, a novel anticancer nanofiber membrane containing purpurin-18 (0.1%) was successfully prepared. The thickness of membrane was 0.028 mm, and the average fiber diameter was around 357 nm by scanning electron microscope (SEM). It was indicated that purpurin-18 possessed excellent compatibility with PLLA from FTIR spectrum. The physical properties of fiber membrane were also characterized by Differential Scanning Calorimetry (DSC) and X-ray diffraction (XRD). Cell morphology and the interaction between cells and nanofibers were studied by SEM. The results showed that both SMMC 7721 and ECA109 cells can adhere and spread on the surface of the polymer nanofiber, and both cells can interact and integrate well with the surrounding fibers. The efficacy of PDT was determined by MTT assays. The results showed that the cells were killed immediately after PDT and purpurin-18 had no different efficacy to different cancer cell lines. In summary, the PS-loaded PLLA nanofibers were prepared successfully, and the SMMC 7721 and ECA109 cells could be inhibited and killed through photodynamic therapy.