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BRITZ

Juhasz AL, ML Britz, GA Stanley (1997) Degradation of benzo[a]pyrene, dibenz[(3,/j]anthracene and coronene by Burkholderia cepacia. Water Sci Technol 36 45-51. [Pg.420]

Boonchan S, ML Britz, GA Stanley (1998) Surfactant-enhanced biodegradation of high molecular weight polycyclic aromatic hydrocarbons by Stenotrophomonas maltophilia. Biotechnol Bioeng 59 480-494. [Pg.655]

Schmidt TJ, Noeske M, Gasteiger HA, Behm RJ, Britz P, Boennemann H. 1998a. PtRu alloy colloids as precursors for fuel cell catalysts. J Electrochem Soc 145 925-931. [Pg.563]

D. Britz, Digital Simulation in Electrochemistry, 2nd edn.. Springer-Verlag, New York, 1988. [Pg.360]

Peng, X., Bowser, M.T., Britz-McKibbin, P., Bebault, G.M., Morris, J.R., and Chen, D.D.Y., Quantitative description of analyte migration behavior based on dyamic complexation in capillary electrophoresis with one or more additives, Electrophoresis, 18, 706, 1997. [Pg.438]

A further promising attempt to identify the bluelight-reducible cyt b is described by Britz et al.26) for a plasma-membrane-enriched fraction of com coleoptiles. They find that methylene blue (Scheme 2) is capable of reducing a particular cyt b which constitutes only 10—20% of the total dithionite-reducible cytochromes. Since this particular cyt b is very similar to that which is photo-reduced by endogeneous flavin in Neurospora 122,123) the two are proposed to be identical. [Pg.39]

Boonchan S, Britz ML, Stanley GA (2000) Degradation and mineralization of high-molecular-weight polycyclic aromatic hydrocarbons by defined fungal-bacterial cocultures. Appl Environ Microbiol 66 1007-1019... [Pg.191]

Bonnemann, H., Britz P., and Ehwald, H., Herstellung und testung von ruthenium-kolloid-katalysatoren fur die selektivhydrierung von benzol zu cyclohexen, Chem. Tech. (Leipzig), 49, 189, 1997. [Pg.92]

P. Britz-McKibbin and S. Terabe, On-line preconcentration strategies for trace analysis of metabolites by capillary electrophoresis. J. Chromatogr.A 1000 (2003) 917-934. [Pg.61]

A. J. Ozinskas, H. Malak, J. Joshi, H. Szmacinski, J. Britz, R. B. Thompson, P. A. Koen, and J. R. Lakowicz, Homogeneous model immunoassay of thyroxine by phase-modulation fluorescence spectroscopy, Anal. Biochem. 213, 264-270(1993). [Pg.19]

D. A. Britz, A. N. Khlobystov, Nanocovalent interactions of molecules with single walled carbon nanotubes, Chemical Society Reviews, vol. 35, pp. 637-659, 2006. [Pg.113]

Britz, D., Digital Simulation in Electrochemistry, Springer-Verlag, Berlin, 1981 and MacDonald, D., Transient Techniques in Electrochemistry, Plenum Press, New York, 1977. Both of these books contain copious details concerning electrochemical simulations. Although these texts are extremely mathematical (as all simulation work has to be), the basic concepts are not too difficult to follow. The application notes to Condecon (see URL on page 301) are also a feast of detail. [Pg.334]

Parras CM, GaUi R, Britz O et al (2004) Mashl specifies neurons and oligodendrocytes in the posmatal brain. EMBO J 23 4495 505... [Pg.277]

P Britz-McKibbin, DDY Chen. Prediction of the migration behavior of analytes in capillary electrophoresis based on three fundamental parameters. J Chromatogr A 781 23-34, 1997. [Pg.114]

TJ Schmid, M Noeske, HA Gasteiger, RJ Behni, P Britz, W Brijoux, H Bonnemann. Langmuir 13 2591, 1997. [Pg.458]

Britz-Cunningham SH, Shah MM, Zuppan CW, Fletcher WH Mutations of the connexin 43 gap junction gene in patients with heart malformations and defects of laterality. N Engl J Med 1995 332 1323-1329. [Pg.122]

W. Wei, G. Zue, and E. S. Yeung, One-Step Concentration of Analytes Based on Dynamic Change in pH in Capillary Zone Electrophoresis, Anal. Chem. 2002, 74, 934 P. Britz-McKibbin, K. Otsuka, and S. Terabe, On-Line Focusing of Flavin Derivatives Using Dynamic pH Junction-Sweeping Capillary Electrophoresis with Laser-Induced Fluorescence Detection, Anal. Chem. 2002, 74, 3736. [Pg.683]

A detailed treatment of the theoretical approach used in treating LSV and CV boundary value problems can be found in the monograph by MacDonald [23], More specific information on the numerical solution of integral equations common to electrochemical methods is available in the chapter by Nicholson [30]. The most commonly used method for the calculation of the theoretical electrochemical response, at the present time, is digital simulation which has been well reviewed by Feldberg [31, 32], Prater [33], Maloy [34], and Britz [35]. [Pg.156]

D. Britz, iR Elimination in Electro-chemical Cells, J. Electroanal. Chem. 88 309 (1978). [Pg.234]

See other pages where BRITZ is mentioned: [Pg.131]    [Pg.47]    [Pg.73]    [Pg.73]    [Pg.73]    [Pg.360]    [Pg.47]    [Pg.8]    [Pg.42]    [Pg.120]    [Pg.68]    [Pg.68]    [Pg.70]    [Pg.70]    [Pg.22]    [Pg.304]    [Pg.53]    [Pg.142]    [Pg.226]    [Pg.87]    [Pg.146]    [Pg.201]    [Pg.422]    [Pg.431]   
See also in sourсe #XX -- [ Pg.302 ]



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D. Britz, J. Strutwolf, Digital Simulation in Electrochemistry, Monographs

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