Rbicides. Biosens. Bioelectron. 2003, 18, 45763. Tay, C.C.; Salmijah, S.; Lee, Y.H.

Rbicides. Biosens. Bioelectron. 2003, 18, 45763. Tay, C.C.; Salmijah, S.; Lee, Y.H. A copper toxicity biosensor employing immobilized cyanobacteria. Anabaena torulosa. Sens. Lett. 2005, 3, 494. Frense, D.; M ler, A.; Beckmann, D. Detection of environmental pollutants making use of optical biosensor with immobilized algae cells. Sens. Actuators B Chem. 1998, 51, 25660. Maly, J.; Masojidek, J.; Masci, A.; Ilie, M.; Cianci, E.; Foglietti, V.; Vastarella, W.; Pilloton, R. Direct mediatorless electron transport among the monolayer of photosystem II and poly(mercapto-p-benzoquinone) modified gold electrode-new style of biosensor for herbicide detection. Biosens. Bioelectron. 2005, 21, 92332. Wang, H.; Wang, X.J.; Zhao, J.F.; Chen, L. Toxicity assessment of heavy metals and organic compounds employing CellSense biosensor with E. coli. Chin. Chem. Lett. 2008, 19, 21114. D’ Souza, S.F. Evaluation microbial biosensors. Biosens. Bioelectron. 2001, 16, 33753. Trevan, M.D.; Mak, L. Immobilized algae and their prospective for use as biocatalysts. Trends Biotechnol. 1988, 6, 683. Sanders, C.A.; Rodriguez, M. Jr.; Greenbaum, E. Strand-off tissue based biosensors for the detection of chemical warfare agents working with photosynthetic fluorescence induction. Biosens. Bioelectron. 2001, 16, 43946. Philp, J.C.; Balmand, S.; Hajto, E.; Bailey, M.J.; Wiles, S.; Whitley, A.S.; Lelley, A.K.; Hajto, J.; Dunbar, S.A. Entire cell immobilized biosensors for toxicity assessment of a wastewater remedy plant treating phenolic-containing waste. Analy. Chim. Acta 2003, 487, 614. Wong, L.S.; Salmijah, S.; Lee, Y.H. Toxicity biosensor for the evaluation of cadmium toxicity based on photosynthetic behavior of cyanobacteria Anabaena torulosa. Asian J. Biochem. 2008, three, 16268. Brickerstaff, G.F. Immobilization of Enzymes and Cells; Humane Press: London, UK, 1997.Sensors 2013,18. Cantarella, M.; Migliaresi, C.; Tafuri, M.G.; Alfani, F. Immobilization of yeast cells in hydroxyethylmethacrylate gels. Appl. Microbiol. Biotechnol. 1984, 20, 23337. 19. Caykara, T.; y ek, C.; Kantoglu, ; G en, O. Influence of gel composition around the solubility parameter of poly(2-hydroxyethil methacrylate-itaconic acid) hydrogel.Olmesartan J.Iohexol Polym.PMID:27017949 Sci. B 2002, 40, 1995003. 20. Montheard, J.P.; Chatzopoulos, M.; Chappard, D. 2-hydroxyethyl methacrylate (HEMA): Chemical properties and applications in biomedical fields. J. Macromol. Sci. 1992, 32, 14. 21. Ratner, B.D.; Hoffman, A.S. Hydrogels for Medical and Connected Applications; American Chemical Society: Washington, DC, USA, 1976; pp. 16. 22. Sharina, A.H.; Lee, Y.H.; Musa, A. Biosensors for phenolic compounds by immobilization of tyrosinase in photocurable methacrylic-acrylic membranes of varying hydrophilicities. Anal. Sci. 2009, 25, 77984. 23. Norazlina, O.; Fatimah, A.B.; Abu, B.S.; Lee, Y.H.; Rahman, W. A preliminary investigation on a histamine biosensor constructed from diamine oxidase immobilized onto a oxygen probe. Malaysia J. Anal. Sci. 2006, ten, 13742. 24. Tan, L.L.; Musa, A.; Lee, Y.H. Determination of ammonium ion making use of a reagentless amperometric biosensor primarily based on immobilized alanine dehydrogenase. Sensors 2011, 11, 9344360. 25. Krause, G.H.; Weis, E. Chlorophyll fluorescence and photosythesis: The basic. Annu. Rev. Plant Physiol. 1991, 42, 31349. 26. James, D.E. Culturing Algae; Carolina Biological Provide Organization: Burlington, VT, USA, 1978. 27. Trainor, F.R. Introductory Phycology; John Wiley and Sons: New York, NY, USA, 1979. 28. Carr, N.G.; Whitton, B.A. The Bi.