Morphological features and mechanical properties of nanofibers scaffolds of polylactic acid modified with hydroxyapatite/CdSe for wound healing applications

Ternary nanocomposites, including graphene oxide (GO), hydroxyapatite (HAP), and cadmium selenite (CdSe) have been encapsulated into nanofibrous scaffolds of polylactic acid. These compositions were indexed as HAP@PLA (C1), CdSe@PLA (C2), HAP/CdSe@PLA (C3), HAP/GO@PLA (C4), and HAP/CdSe/GO@PLA (C5). Structural confirmation is executed by XRD and XPS techniques, while FESEM performs morphological characteristics. CdSe and GO dopants cause a significant increase in nanofiber diameter, HAP/GO@PLA (C4), showing thin surface fibers with fiber diameter up to 3.1 mu m, followed by HAP/CdSe/GO@PLA (C4) composite that belongs to filament size up to 2.1 mu m. On the other hand, the mechanical properties reveal that the dual dopant composites HAP/CdSe@PLA (C3) and HAP/GO@PLA (C4) hit the maximum tensile fracture values with 1.49 +/- 0.3 and 0.99 +/- 0.2 MPa. Further, the ternary C5 composite represents the lowest contact angle of 86.1 +/- 3.7 degrees. The antibacterial activity increased from 32.4 +/- 9.7 and 28.4 +/- 6.5% to be 85.3 +/- 4.6 and 88.1 +/- 5.6% for Cl and C5, respectively, against both E. roll and S. aureus in dark conditions. Moreover, the antibacterial potency enhanced from 75.4 +/- 7.6 to be 83.5 +/- 6.5 from dark to light conditions against E. coli for the composition of PLA containing the binary composition of HAP/CdSe.