EurekaMag.com logo
+ Site Statistics
References:
47,893,527
Abstracts:
28,296,643
+ Search Articles
+ Subscribe to Site Feeds
EurekaMag Most Shared ContentMost Shared
EurekaMag PDF Full Text ContentPDF Full Text
+ PDF Full Text
Request PDF Full TextRequest PDF Full Text
+ Follow Us
Follow on FacebookFollow on Facebook
Follow on TwitterFollow on Twitter
Follow on Google+Follow on Google+
Follow on LinkedInFollow on LinkedIn

+ Translate

Plasma modified polymers for biomedical applications






Migliaresi, C , Et Al (Ed ) Progress in Biomedical Engineering, Vol 5 Polymers in Medicine Iii; Third International Conference on Polymers in Medicine, Porto Cervo, Italy, June 9-13, 1987 Viii+247p Elsevier Science Publishers B V : Amsterdam, Netherlands; New York, New York, Usa Illus 43-50

Plasma modified polymers for biomedical applications



Accession: 028916897



Related references

Gomathi, N.; Sureshkumar, A.; Neogi, S., 2008: RF plasma-treated polymers for biomedical applications. The choice of polymers for various biomedical applications depends on their surface properties. All polymers do not possess the surface properties required for biomedical applications. Surface properties of the materials like surface free energy,...

Shirazi, H.Safizadeh.; Rogers, N.; Michelmore, A.; Whittle, J.D., 2016: Furfuryl methacrylate plasma polymers for biomedical applications. Furfuryl methacrylate (FMA) is a promising precursor for producing polymers for biomedical and cell therapy applications. Herein, FMA plasma polymer coatings were prepared with different powers, deposition times, and flow rates. The plasma polymer...

Yoon, J.; Kwag, J.; Shin, T.Joo.; Park, J.; Lee, Y.Man.; Lee, Y.; Park, J.; Heo, J.; Joo, C.; Park, T.Jung.; Yoo, P.J.; Kim, S.; Park, J., 2015: Nanoparticles of conjugated polymers prepared from phase-separated films of phospholipids and polymers for biomedical applications. Phase separation in films of phospholipids and conjugated polymers results in nanoassemblies because of a difference in the physicochemical properties between the hydrophobic polymers and the polar lipid heads, together with the comparable polymer...

Tamaki, Y.; Lee, W.Sik.; Kataoka, Y.; Miyazaki, T., 2011: A modified porous titanium sheet prepared by plasma-activated sintering for biomedical applications. This study aimed to develop a contamination-free porous titanium scaffold by a plasma-activated sintering within an originally developed TiN-coated graphite mold. The surface of porous titanium sheet with or without a coated graphite mold was char...

Svorcík, V.; Makajová, Z.; Kasálková-Slepicková, N.; Kolská, Z.; Bacáková, L., 2012: Plasma-modified and polyethylene glycol-grafted polymers for potential tissue engineering applications. Modified and grafted polymers may serve as building blocks for creating artificial bioinspired nanostructured surfaces for tissue engineering. Polyethylene (PE) and polystyrene (PS) were modified by Ar plasma and the surface of the plasma activate...

Simanek, E., 2010: Polymers for biomedical applications. Molecular Pharmaceutics 7(4): 921-921

Grinstaff, M.W.; Carnahan, M.A.; Fleming, P.S.; Hatchell, D.L.; Luman, N.R.; Morgan, M.T.; Patel, S.; Ray, W.C.; Pfister Serres, A.; Smeds, K.A.; Touw, K.L.; Walsh, E.B., 2001: Photocrosslinkable polymers for biomedical applications. Abstracts of Papers American Chemical Society 222(1-2): POLY 49

Chatterji P., 1987: Biomedical applications of synthetic polymers. Synthetic polymers are fast replacing conventional engineering materials in many fields. And the field of medicine is no exception. This article is an attempt to review the current status and the future prospects.

Iwasaki, Y.; Ishihara, K., 2005: Phosphorylcholine-containing polymers for biomedical applications. Low rates of evolution in cnidarian mitochondrial genes such as COI and 16S rDNA have hindered molecular systematic studies in this important invertebrate group. We sequenced fragments of 3 mitochondrial protein-coding genes (NADH dehydrogenase su...

Gebelein, C.-G.K.blitz, F., F., 1981: Biomedical and dental applications of polymers