Articles: | |
---|---|
• |
Journal of Nuclear Materials,
438:S846-S851
2013
Equipe: Département CP2S : Expériences et Simulations des Plasmas Réactifs - Interaction plasma-surface et Traitement des Surfaces ESPRITS |
• |
IEEE Sensors Journal,
13(12):4607-4612
2013
Equipe: Centre de Compétences : MiNaLor micro et nanotechnologies |
• |
Bias dependence of tunneling magnetoresistance in magnetic tunnel junctions with asymmetric barriers
Journal of Physics Condensed Matter,
25(49)
2013
Equipe: Département P2M : Nanomagnétisme et Electronique de Spin |
• |
Applied Physics Letters,
103(24)
2013
Equipe: Département P2M : Nanomagnétisme et Electronique de Spin |
• |
8626
2013
ISSN: 0277-786X
DOI: 10.1117/12.2010105
Equipe: Centre de Compétences : X-Gamma rayons X et spectroscopie |
• |
Russian Journal of Non Ferrous Metals,
54(1):8-12
2013
Equipe: Département CP2S : Expériences et Simulations des Plasmas Réactifs - Interaction plasma-surface et Traitement des Surfaces ESPRITS |
• |
Carbohydrate Polymers,
93(2):401-411
2013
Resume: This work addresses the functionalization of chitosan thin films and its nanoliposomes blend films by a microwave-excited Ar/N2/H2 surface-wave plasma treatment which was found an effective tool to modify surface properties. Changes in the film properties (wettability, chemical composition, morphology) induced by the plasma treatment are studied using water contact angle measurements, X-ray photoelectron spectroscopy and scanning probe microscopy. The results suggest that hydrophilicity of the films is improved by plasma treatment in a plasma condition dependency manner. Water contact angle of chitosan films before and after plasma treatment are, respectively, 101° and 27°. Besides chemical changes on the surface, the nanoliposomes incorporation and plasma treatment also induce morphological modifications. Moreover, a correlation is found between the nanoliposomes composition and size, and the effects of plasma treatment. It is shown that the plasma treatment significantly improves the chitosan film functionalization. The effect of N2 content (88% and 100%) in the plasma gas mixture on the film etching is also pointed out. Equipe: Département CP2S : Expériences et Simulations des Plasmas Réactifs - Interaction plasma-surface et Traitement des Surfaces ESPRITS |
• |
Plasma Processes and Polymers,
10:535-543
2013
Resume: Poly-lactic acid (PLA) is the most used biopolymer in both biomedical and food packaging fields to replace petrochemical plastics. The surface properties of PLA thin films were studied before and after plasma treatment to enhance its wettability and its adhesive properties. Based on the experimental design, the most significant parameters of the plasma process were specified. The effect of the cold plasma treatment on the mechanical, topographic composition, thermal and barrier properties of the PLA was carried out using different Ar-N2-O2 gas mixture. Results show that the discharge gas can have a significant influence on the chemical composition and the wettability of the PLA surfaces. As the plasma processing is a surface treatment without affecting the bulk properties, it did not change the PLA properties. Equipe: Département CP2S : Expériences et Simulations des Plasmas Réactifs - Interaction plasma-surface et Traitement des Surfaces ESPRITS |
• |
Physical Review B - Condensed Matter and Materials Physics,
88(20)
2013
Equipe: Département P2M : Nanomagnétisme et Electronique de Spin |
• |
Physical Review B - Condensed Matter and Materials Physics,
88(10)
2013
Equipe: Département P2M : Nanomagnétisme et Electronique de Spin |