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Biomedical applications chemistry

Harris JM (ed) (1992) Poly(ethylene glycol) chemistry biotechnical and biomedical applications. Plenum, New York... [Pg.68]

Fabrication processing of these materials is highly complex, particularly for materials created to have interfaces in morphology or a microstructure [4—5], for example in co-fired multi-layer ceramics. In addition, there is both a scientific and a practical interest in studying the influence of a particular pore microstructure on the motional behavior of fluids imbibed into these materials [6-9]. This is due to the fact that the actual use of functionalized ceramics in industrial and biomedical applications often involves the movement of one or more fluids through the material. Research in this area is therefore bi-directional one must characterize both how the spatial microstructure (e.g., pore size, surface chemistry, surface area, connectivity) of the material evolves during processing, and how this microstructure affects the motional properties (e.g., molecular diffusion, adsorption coefficients, thermodynamic constants) of fluids contained within it. [Pg.304]

Kissinger, P. T., Biomedical applications of liquid chromatography-electro-chemistry, /. Chromatogr., 488, 31, 1989. [Pg.270]

POLY (ETHYLENE GLYCOL) CHEMISTRY Biotechnical and Biomedical Applications... [Pg.304]

Laurent, S., Bridot, J.L., Elst, L.V. and Muller, R.N. (2010) Magnetic iron oxide nanopartides for biomedical applications. Future Medicinal Chemistry, 2 (3), 427 149. [Pg.79]

Filler, R., Kobayashi, Y., and Yagupolskii, L. M., Editors (1993). Organofluorine compounds in medicinal chemistry and biomedical applications. Stud. Org. Chem. (Amst.) 48. [Pg.352]

Isolation and characterization of new indole alkaloids remains a fruitful avenue for the discovery of agents with the potential for biomedical application. The virtues of this age-old process, in light of advances in combinatorial chemistry, were brought to the community as part of the 231 ACS National Meeting symposium, Modern Natural Products Chemistry and Drug Discovery <06ORGN467>. [Pg.160]

Tjerneld, F. (1992) Aqueous two-phase partitioning on an industrial scale. In Poly (Ethylene Glycol) Chemistry Biotechnical and Biomedical Applications (J.M. Harris, ed.), pp. 85-102. Plenum, New York. [Pg.1122]

The past two decades have produced a revival of interest in the synthesis of polyanhydrides for biomedical applications. These materials offer a unique combination of properties that includes hydrolytically labile backbone, hydrophobic bulk, and very flexible chemistry that can be combined with other functional groups to develop polymers with novel physical and chemical properties. This combination of properties leads to erosion kinetics that is primarily surface eroding and offers the potential to stabilize macromolecular drugs and extend release profiles from days to years. The microstructural characteristics and inhomogeneities of multi-component systems offer an additional dimension of drug release kinetics that can be exploited to tailor drug release profiles. [Pg.213]

There has been great interest in Cu(II) as a result of its role in biology, and the versatility in its available radioactive isotopes. The chemistry of bis(thiosemicarbazonato) metal complexes has received much interest over the last decade with particular interest in the copper complexes that are known blood perfusion tracers and also display hypoxic selectivity. Biomedical applications revolve around its redox chemistry (12,83-88,98-104). [Pg.151]

In order to have a comprehensive account on the various aspects of Biomedical Analytical. Chemistry , we may have to study the following four methods of assay with specific emphasis on their principle and applications, namely ... [Pg.53]

B. Applications in Biomedical Analytical Chemistry Colorimetric assays have a wide spectrum of applications in biomedical analytical chemistry which may be categorized under the following four heads, namely ... [Pg.56]

Harris, J. M., Ed. Poly(ethylene glycol) Chemistry, Biotechnical and Biomedical Applications, Plenum Press, New York, NY, 1992. [Pg.24]

The interest in polymer brushes and defined polymer coatings prepared via SIP is not at all restricted to the polymer community or the surface science community. The demand for tailored, fimctionahzed and adaptive surfaces comes from a multitude of scientific branches and also from industry. Possible applications are already discussed in many of the contributions compiled here. Besides polymer science, surface chemistry and physics, they include catalysis, biomedical applications, microfluidics and nanotechnology. This creates a highly interdisciplinary, Hvely and fruitful environment. [Pg.225]

Eowler JS (1993) The synthesis and application of F-18 compounds in positron emission tomography. In Filler R (eds) Organofluorine compounds in medicinal chemistry and biomedical applications. Elsevier Science Publishers BV, Amsterdam, p 309... [Pg.251]

James, L. F., Panter, K. E., Gaffield, W. and Molynex, R. J. 2004. Biomedical applications of poisonous plant research. Journal of Agriculture and Food Chemistry, 52 3211-3230. [Pg.285]

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See also in sourсe #XX -- [ Pg.652 ]



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