Adhesion properties of Microorganisms onto surfaces of phosphorylcholine(PC)-modified copolymer for sensor applications |
Kim, Sun-Yong
(Department of Material and Biochemical Engineering, Chonnam National University)
Sohn, Ok-Jae (Department of Material and Biochemical Engineering, Chonnam National University) Chae, Kyu-Ho (School of Applied Chemical Engineering, Chonnam National University) Rhee, Jong-II (School of Applied Chemical Engineering, Chonnam National University) |
1 | R. Murga, J. M. Miller, and R. M. Donlan (2001), Biofilm fonnation by gram-nagative bacteria on central venous catheter connectors: effect of conditioning films in a laboratory model, Journal of Clinical Microbiology 39, 2294-2297 DOI ScienceOn |
2 | N. Hayase, T. Sogabe, and R. Itou (2003), Polymer film produced by a marine bacterium, Journal of Bioscience and Bioengineering 95, 72-76 DOI |
3 | F. Fay, I. Linossier, and V. Langlois (2005), SEM and EDX analysis: Two powerful techniques for the study of antifouling paint, Progress in Oraganic Coatings 54, 216-233 |
4 | L. Ji, J. Zhou (2006), Influence of aeration on microbial polymers and membrane fouling in submerged membrane bioreactors, Journal of Membrane Science 276, 168-177 DOI ScienceOn |
5 | P. Yazdankhah, H. Sorum, J. S. Larsen, and G. Gogstad (2001), Use of magnetic beads for gram staining of bacteria in aqueous suspension, Journal of Microbiological Method 47, 369-371 DOI ScienceOn |
6 | J. H. Lee, P. Kopeckova, J. Kopecek, and J. D. Andrade (1990) Surface prope rties of copolymers of alkyl methylacrylates with, methoxy (polyethylene oxide) methylacrylates and their application as protein-resistant coatings, Biometerials, 11, 455-464 DOI ScienceOn |
7 | J. Novick. and S. Doridick (2002), Protein-containing hydrophobic coatings and films, Biomaterials 23, 441-448 DOI ScienceOn |
8 | P. S. Grant, S. Kaul, S. chinnayelka, and M. J. Mcshane (2003), In 25th Annual International Conference of The IEEE EMBS, Mexico, 17-21 |
9 | L. Yu, T. Lu (2001), Detachment force and their influence on the structure and metabolic behaviour of biofilms, World Journal of Microbiology and Biotechnology 17, 111-117 DOI |
10 | A. Desai, J. Hansford, and L. Leoni (2000), Nanoporous anti-fouling silicon membranes for biosensor applications, Biosensors and Bioelectronics 15, 453-462 DOI ScienceOn |
11 | B. T. Watennann and B. Daehre, S. Sievers (2005), Bioassays and selected chemical analysis of biocide-free antifouling coating, Chemosphere 60, 1530-1541 DOI ScienceOn |
12 | L. D. Chambers, K. R. Stokes, F. C. Walsh, and R. J. K. Wood (2006), Modern approaches to marine antifouling coating, Surface and Coatings Technology 201, 3642-3652 DOI ScienceOn |
13 | G. Bolton, D. Lacasse, and R. Kuriyel (2005), Conbined models of membrane fouling: Development and application to micromtration and ultrafiltration of biological fluid, Journal of Membrane Science 777, 75-84 |
14 | K. H. Chae, Y. M. Jang, Y. H. Kim, O. J. Sohn, and J. I. Rhee (2007), Antifouling epoxy coating for optical biosensor application based on phosphorylcholine, Sensors and Actuators B 124, 153-160 DOI ScienceOn |