Katchalsky

Katchalsky A and Curran P F 1965 Nonequilibrium Thermodynamics in Biophysics (Cambridge, MA ITarvard University Press)... 

Strynadka et al., 1996] Strynadka, N., Eisenstein, M., Katchalski-Katzir, E., Shoichet, B., Kuntz, I., Abagyan, R., Totrov, M., Janin, J., Cherflls, J., Zimmerman, F., Olson, A., Duncan, B., Rao, M., Jackson, R., Sternberg, M., and James, M. Molecular docking programs successfully predict the binding of a /3-lactamase inhibitory protein to TEM-1 /3-lactamase. Nature Struct. Biol. 3 (1996) 233-239... 

Reverse osmosis models can be divided into three types irreversible thermodynamics models, such as Kedem-Katchalsky and Spiegler-Kedem models nonporous or homogeneous membrane models, such as the solution—diffusion (SD), solution—diffusion—imperfection, and extended solution—diffusion models and pore models, such as the finely porous, preferential sorption—capillary flow, and surface force—pore flow models. Charged RO membrane theories can be used to describe nanofiltration membranes, which are often negatively charged. Models such as Dorman exclusion and the... 

A. Katchalsky and P. F. Curran, Nonequilibrium Thermodynamics in Biophysics, Harvard University Press, Cambridge, Mass., 1965, pp. 113—132. 

This book is primarily directed at professional materials scientists and engineers, and they have no urgent need to see themselves defined. Indeed, it would be perfectly reasonable to say about materials science what Aaron Katchalsky used to say about his new discipline, biophysics Biophysics is like my wife. I know her, but I cannot define her (Markl 1998). Nevertheless, in this preliminary canter through the early history of MSE, it is instructive to examine briefly how various eminent practitioners have perceived their changing domain. 

Bioreactors a) batch stirred tank b) continuous stirred tank c) continuous packed-bed i) downward flow, ii) upward flow and iii) recycle d) continuous fluidised-bed e) continuous ultrafiltration. Redrawn from Katchalski - Katzir E. (1993) Trends in Biotechnology II, 471-477. 

Sedimentation systems with the particle size of 0.1-1.0 pm were obtained by mechanical dispersion of the copolymers with subsequent washing, fractionation, and separation of fractions. Micrograin forms (gr.) were synthesized by suspension copolymerization and fractionated. For the description of properties of weakly swelling and weakly dissociating gels, Katchalsky [36] has proposed an equation which contains the electrostatic potential eip... 

Fuoss RM, Katchalsky A, Lifson S (1951) Proc Natl Acad Sci USA 37 579... 

Katchalsky and Flory, work on artificial muscles, 359 Kinetics... 

L. B. Wingard Jr., E. Katchalski-Katzir u. L. Goldstein, Applied Biochemistry and Bioengineering, Vol. 1 Immobilized Enzyme Principles, Academic Press, New York 1976. 

Sela, M., and Katchalski, E., Biological properties of poly-a-amino acids, Adv. Prot. Chem.. 14. 391-479, 1959. 

Katzir-Katchalsky, A, Biophysics and Other Topics, Selected Papers by Aharon Katzir-Katchalsky Academic Press New York, 1976. 

The DE were determined by titrimetry, and the galacturonic acid (GalA) content was measured by the m-hydroxybiphenyl method [25]. The structural charge density parameter introduced by Lifson and Katchalsky [26], is given by = e2/bDkT(l-DE/100) were e is the electron charge, kT the Boltzman term, b... 

A. Katchalsky, Z. Alexandrowicz, O. Kedem, Polyelectrolyte Solution, in Chemical Physics of Ionic Solutions, Ed. (B. E. 

Approximate results obtained by Katchalsky, Lifson, and Eisen-berg o swelling in water of poly-(methacrylic acid) gels cross-... 

Fig. 137.—Equilibrium swelling ratio qm of poly-(methacrylic acid) gels prepared by copolymerizing methacrylic acid with 1, 2, and 4 percent (upper, middle, and lower curves, respectively) of divinylbenzene plotted against degree of neutralization i with sodium hydroxide. (Katchalsky, Lifson, and Eisenberg. )...

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