Biodegradation of Synthetic Thermoplastic Polymers and Plastics Based on Them (Review)

“…11(a) shows the visual images of degraded polymer membranes. [88][89][90] SEM analysis is a powerful tool for assessing the surface topography of films before and after biological degradation in potting soil and enabled the classification of the degraded residues based on several noteworthy features. We examined the films under SEM before and after degradation to see how biodegradation affected the surface morphology of the nanocomposite polymeric films.…”

A biodegradable silver oxide-treated hydroxyapatite nanoparticle (AgO@HA)-interlaced poly(etherimide)/poly(methylmethacrylate) membrane for blood purification: an in vitro study

“…11(a) shows the visual images of degraded polymer membranes. [88][89][90] SEM analysis is a powerful tool for assessing the surface topography of films before and after biological degradation in potting soil and enabled the classification of the degraded residues based on several noteworthy features. We examined the films under SEM before and after degradation to see how biodegradation affected the surface morphology of the nanocomposite polymeric films.…”

A biodegradable silver oxide-treated hydroxyapatite nanoparticle (AgO@HA)-interlaced poly(etherimide)/poly(methylmethacrylate) membrane for blood purification: an in vitro study