Geodesic
The electroosmotic model of matter transport through biological barriers
Kybernetika, Tome 15 (1979) no. 6, pp. 482-487 Cet article a éte moissonné depuis la source Czech Digital Mathematics Library

Voir la notice de l'article

Classification : 80A99, 92C05 
@article{KYB_1979_15_6_a6,
     author = {Michalov, Jozef and Pal\v{c}\'akov\'a, Zuzana},
     title = {The electroosmotic model of matter transport through biological barriers},
     journal = {Kybernetika},
     pages = {482--487},
     year = {1979},
     volume = {15},
     number = {6},
     language = {en},
     url = {http://geodesic.mathdoc.fr/item/KYB_1979_15_6_a6/}
}
TY  - JOUR
AU  - Michalov, Jozef
AU  - Palčáková, Zuzana
TI  - The electroosmotic model of matter transport through biological barriers
JO  - Kybernetika
PY  - 1979
SP  - 482
EP  - 487
VL  - 15
IS  - 6
UR  - http://geodesic.mathdoc.fr/item/KYB_1979_15_6_a6/
LA  - en
ID  - KYB_1979_15_6_a6
ER  - 
%0 Journal Article
%A Michalov, Jozef
%A Palčáková, Zuzana
%T The electroosmotic model of matter transport through biological barriers
%J Kybernetika
%D 1979
%P 482-487
%V 15
%N 6
%U http://geodesic.mathdoc.fr/item/KYB_1979_15_6_a6/
%G en
%F KYB_1979_15_6_a6
Michalov, Jozef; Palčáková, Zuzana. The electroosmotic model of matter transport through biological barriers. Kybernetika, Tome 15 (1979) no. 6, pp. 482-487. http://geodesic.mathdoc.fr/item/KYB_1979_15_6_a6/

[1] J. Dvořák J. Koryta V. Boháčková: Elektrochemie. 2. vydání. Academia, Praha 1975.

[2] R. Haase: Thermodynamik der ireversiblen Prozesse. Dr. Dietrich Steinkopf Verlag, Darmstadt 1963.

[3] R. Haase: Termodinamika neobratimych processov. Izd. Mir, Moskva 1967.

[4] A. Katchalsky P. F. Curran: Nonequilibrium Thermodynamics in Biophysics. Harvard University Press, Cambridge, Massachusetts 1967.

[5] R. I. Hayden C. A. Moyse F. W. Calder D. P. Crawford D. C. Fensom: Electrical impedance studies on potato and alfalfa tissue. J. Exp. Bot. 20 (1969), 63, 177-200.

[6] J. Michalov V. Masaryková V. Kozinka: Electroosmotiv measurements of the induced longitudinal flow of aqueous solution through the root segments of maize and the twigs of the white birch. Biológia (Bratislava) 31 (1976), 4, 269-279.

[7] D. G. Miller: Thermodynamics of irreversible processes. Chem. Rev. 60 (1960), 15-37.

[8] L. Onsager: Reciprocal relations in irreversible processes I. Phys. Rev. 37 (1931a), 405-426. | Zbl

[9] L. Onsager: Reciprocal relations in irreversible processes II. Phys. Rev. 38 (1931b), 2265-2279.

[10] I. Prigogine: Vvedenie v termodinamiku neobratimych processov. Izdatel'stvo IL, Moskva 1960.

[11] D. C. Spanner: Introduction to Thermodynamics. Academic Press, London-New York 1964.

[12] M. T. Tyree: Determination of transport constants of isolated Nitella cell walls. Can. J. Bot. 46 (1968), 317-327.

[13] M. T. Tyree M. H. Zimmermann: The theory of measuring transport coefficients and sap flow in the xylemof red maple stems (Acer rubrum). J. Exp. Bot. 22(1971), 1 - 18.

[14] J. Velíšek: Elektroforesa, elektroosmoza a zjevy inversní. Přírodovědecké vydav., Praha 1952.