Electrospun coatings are emerging as an alternative to conventional titanium-based implant surface modifications. Here, we developed poly (lactic acid) (PLA)/nano-hydroxyapatite (nHAp) nanofibrous coatings deposited on titanium by electrospinning. A dimethyl carbonate/acetone (1:1 ratio) solvent system was adopted as a safer and sustainable alternative to toxic solvents. Scanning electron microscopy showed uniform fibers with diameters below 550 nm and coating thicknesses of 35–45 µm. FTIR spectra confirmed nHAp incorporation through characteristic phosphate bands. In vitro degradation revealed greater weight loss and more pronounced pH reduction for PLA/nHAp coatings. These green-fabricated bioactive coatings represent a promising strategy to enhance titanium implant integration.
Biocompatible PLA/nHAp coatings for titanium implants fabricated by green electrospinning / Ciarleglio, Gianluca; Toto, Elisa; Laurenzi, Susanna; Santonicola, Maria Gabriella. - In: MRS COMMUNICATIONS. - ISSN 2159-6867. - (2025), pp. 1-7. [10.1557/s43579-025-00891-x]
Biocompatible PLA/nHAp coatings for titanium implants fabricated by green electrospinning
Ciarleglio, Gianluca
Primo
;Toto, Elisa;Laurenzi, Susanna;Santonicola, Maria GabriellaUltimo
2025
Abstract
Electrospun coatings are emerging as an alternative to conventional titanium-based implant surface modifications. Here, we developed poly (lactic acid) (PLA)/nano-hydroxyapatite (nHAp) nanofibrous coatings deposited on titanium by electrospinning. A dimethyl carbonate/acetone (1:1 ratio) solvent system was adopted as a safer and sustainable alternative to toxic solvents. Scanning electron microscopy showed uniform fibers with diameters below 550 nm and coating thicknesses of 35–45 µm. FTIR spectra confirmed nHAp incorporation through characteristic phosphate bands. In vitro degradation revealed greater weight loss and more pronounced pH reduction for PLA/nHAp coatings. These green-fabricated bioactive coatings represent a promising strategy to enhance titanium implant integration.| File | Dimensione | Formato | |
|---|---|---|---|
|
Ciarleglio_Biocompatible_2025.pdf
accesso aperto
Note: Article
Tipologia:
Versione editoriale (versione pubblicata con il layout dell'editore)
Licenza:
Creative commons
Dimensione
1.3 MB
Formato
Adobe PDF
|
1.3 MB | Adobe PDF |
I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
