Characterization of ion-irradiated poly-l-lactic acid using nano-cutting

Abstract: Effects on the mechanical strength of poly-L-lactic acid (PLLA) upon irradiation with 150 keV He(+) ion were studied. Changes in the irradiated surface were investigated using a surface texture and contour measuring instrument and an atomic force microscope. Observations made with the atomic force microscope revealed that the irradiated surface subsided significantly as the fluence increased. In order to investigate the dependence on fluence of the depth of the Bragg peak for the ion implantation, the cutting … Show more

“…Ion irradiation leads to scission of molecular chains and emission of volatile 38 products from the surface, and increased implantation dose leads to lower density of the implanted 39 region [3]. Polymer chain scission accompanied by surface oxidation processes and new functional Plasma treatment is often used as a pre-treatment technology and for surface activation 48 followed by distinct coating processes, e.g.…”

Surface Property Modification of Polylactic Acid by Ion Implantation

“…Ion irradiation leads to scission of molecular chains and emission of volatile 38 products from the surface, and increased implantation dose leads to lower density of the implanted 39 region [3]. Polymer chain scission accompanied by surface oxidation processes and new functional Plasma treatment is often used as a pre-treatment technology and for surface activation 48 followed by distinct coating processes, e.g.…”

Surface Property Modification of Polylactic Acid by Ion Implantation

Polymer Nanocomposites with Silver Nanoparticles Formed by Low-Energy Ion Implantation: Slow Positron Beam Spectroscopy Studies

Surface modification of polylactic acid by ion, electron beams and low-temperature plasma: a review