Energy mechanism of effects of carbon phase components on hemocompatibility for DLC.
- Author:
Bogang LI
1
;
Ming XUE
;
Guangfu YIN
;
Jie YIN
;
Changqiong ZHENG
Author Information
1. College of Materials Science and Engineering, Sichuan University, Chengdu 610065, China.
- Publication Type:Journal Article
- MeSH:
Biocompatible Materials;
chemistry;
Carbon;
chemistry;
Diamond;
chemistry;
Humans;
Male;
Materials Testing;
Membranes, Artificial;
Models, Biological;
Platelet Adhesiveness;
drug effects;
Surface Properties
- From:
Journal of Biomedical Engineering
2005;22(2):235-237
- CountryChina
- Language:Chinese
-
Abstract:
The correlations between surface energy parameters and carbon phase components in six diamond like carbon film (DLC) samples made in different ways and processing conditions were further investigated using the analysis of T-type correlation degree in the Grey system theory based on our earlier studies such as the determination of carbon phase and surface energy parameters, the analyses of carbon phase components, surface energy parameters and adhesive characteristic of platelets for DLC. The results showed: (1) as a whole critical surface tension has the closest relation with carbon phase components, chromatic dispersion branch of surface tension takes the second place, but for the other four parameters, the correlation is weak; (2) DLC phase has larger negative correlation (degrees -0.57, -0.33) with critical surface tension and chromatic dispersion branch of surface tension, while its correlation degrees with the other four parameters related to polarity are all positive values smaller than 0.20; (3) C-H phase and C-O phase have larger positive correlation (degrees 0.48, 0.25) with critical surface tension. We have come to three conclusions (1) DLC phase plays a dominant part in hemocompatibilioty of DLC by powerfully decreasing humidification and limitedly increasing polarity; (2) the energy mechanism of platelet deformation enhanced by C-H phase and C-O phase involves increasing the critical surface tension of DLC; (3) the hemocompatibility of DLC can be evaluated by using the critical surface tension as index and using the content of DLC phase and additional content limitation of C-H phase and C-O phase as standard. This study has provided a theoretical basis for evaluating the hemocompatibility of DLC based on surface properties.
