Pascal and Francis Bibliographic Databases


Search results

Your search

kw.\*:("Rayon hydrodynamique")

Document Type [dt]

A-Z Z-A Frequency ↓ Frequency ↑
Export in CSV

Publication Year[py]

A-Z Z-A Frequency ↓ Frequency ↑
Export in CSV

Discipline (document) [di]

A-Z Z-A Frequency ↓ Frequency ↑
Export in CSV


A-Z Z-A Frequency ↓ Frequency ↑
Export in CSV

Author Country

A-Z Z-A Frequency ↓ Frequency ↑
Export in CSV

Results 1 to 25 of 3025

  • Page / 121

Selection :

  • and

Hydrodynamic radius of polystyrene in n-butyl chlorideMAA, Y. F; CHEN, S. H.Macromolecules. 1988, Vol 21, Num 4, pp 1176-1177, issn 0024-9297Article

Calcul du rayon hydrodynamique d'un globule polymère en fonction de la qualité du solvant et comparaison du résultat avec les données expérimentalesKUZNETSOV, D. V.Vysokomolekulârnye soedineniâ. Seriâ B. 1988, Vol 30, Num 10, pp 791-792, issn 0507-5483Article

Broken wormlike chain model of semiflexible polymersMANSFIELD, M. L.Macromolecules. 1986, Vol 19, Num 3, pp 854-859, issn 0024-9297Article

Use of high-performance size-exclusion chromatography to measure protein molecular weight and hydrodynamic radiusTARVERS, R. C; CHURCH, F. C.International journal of peptide & protein research. 1985, Vol 26, Num 5, pp 539-549, issn 0367-8377Article

Non-Gaussian contribution to the hydrodynamic radius at the Θ pointFIXMAN, M; MANSFIELD, M. L.Macromolecules. 1984, Vol 17, Num 4, pp 522-527, issn 0024-9297Article

Temperature dependence of the hydrodynamic radius of flexible coils in solutions. II: Transition from the θ to the collapsed stateVIDAKOVIC, P; RONDELEZ, F.Macromolecules. 1984, Vol 17, Num 3, pp 418-425, issn 0024-9297Article

Equivalence of scaling exponents from static and dynamic measurementsMOHAN RAMANATHAN; MCDONNELL, M. E.Macromolecules. 1984, Vol 17, Num 10, pp 2093-2095, issn 0024-9297Article

Rod-to-coil transition of a conjugated polymer in solutionLIM, K. C; FINCHER, C. R. JR; HEEGER, A. J et al.Physical review letters. 1983, Vol 50, Num 24, pp 1934-1937, issn 0031-9007Article

On the hydrodynamic radius of fractal aggregatesVAN SAARLOOS, W.Physica. A. 1987, Vol 147, Num 1-2, pp 280-296, issn 0378-4371Article

Monte Carlo calculations of the hydrodynamic radii of polymers in Θ and good solventsMCCRACKIN, F. L; GUTTMAN, C. M; AKCASU, A. Z et al.Macromolecules. 1984, Vol 17, Num 4, pp 604-610, issn 0024-9297Article

Remarks on the transitional diffusion coefficient of relatively short chainsZIYA AKCASU, A; GUTTMAN, C. M.Macromolecules. 1985, Vol 18, Num 5, pp 938-943, issn 0024-9297Article

Effect of simple electrolytes on the hydrodynamic radius of polystyrene latexSASAKI, S.Colloid and polymer science (Print). 1984, Vol 262, Num 5, pp 406-408, issn 0303-402XArticle

Experimental study of small aggregate settlingGRUY, F; CUGNIET, P.Journal of colloid and interface science. 2004, Vol 272, Num 2, pp 465-471, issn 0021-9797, 7 p.Article

Parametrization of the friction constant for stochastic simulations of polymersPASTOR, R. W; KARPLUS, M.Journal of physical chemistry (1952). 1988, Vol 92, Num 9, pp 2636-2641, issn 0022-3654Article

Variation of the hydrodynamic radius of model chains with intermolecular separation and concentrationOLAJ, O. F; ZIFFERER, G.Macromolecules. 1985, Vol 18, Num 10, pp 1919-1925, issn 0024-9297Article

Modifications of the Stokes-Einstein formulaZWANZIG, R; HARRISON, A. K.The Journal of chemical physics. 1985, Vol 83, Num 11, pp 5861-5862, issn 0021-9606Article

Etude par luminescence des coefficients de diffusion micellaire dans des solutions aqueuses utilisant des composés hydrophobes s'isomérisant par voie photochimiqueBARZYKIN, A. V; RAZUMOV, V. F; ALFIMOV, M. V et al.Kolloidnyj žurnal. 1990, Vol 52, Num 2, pp 338-340, issn 0023-2912Article

Hydrodynamic behavior of fractal aggregatesWILTZIUS, P.Physical review letters. 1987, Vol 58, Num 7, pp 710-713, issn 0031-9007Article

Investigation of moments of intrachain distances in linear polymersBARRETT, A. J.Macromolecules. 1984, Vol 17, Num 8, pp 1561-1565, issn 0024-9297Article

Translational diffusion of relatively short polystyrene chains in cyclohexane. II: An interpretation of hydrodynamic radius with the freely jointed chain modelSUN, C. K. J; MAA, Y. F; CHEN, S. H et al.Journal of polymer science. Part B. Polymer physics. 1987, Vol 25, Num 7, pp 1473-1480, issn 0887-6266Article

Translational diffusion of polystyrene in 1,4-dioxane at infinite dilution determined with the extended taylor dispersion methodBAROOAH, A; SUN, C. K. J; CHEN, S. H et al.Journal of polymer science. Polymer physics edition. 1986, Vol 24, Num 4, pp 817-825, issn 0098-1273Article

Osmotic pressures of concentrated polymer solutions in good solventsKOK, C. M; RUDIN, A.Die Angewandte makromolekulare Chemie. 1983, Vol 117, pp 61-69, issn 0003-3146Article

Disclike vs. cylindrical micelles: Generalized model of micelle growth and data interpretationANACHKOV, Svetoslav E; KRALCHEVSKY, Peter A; DANOV, Krassimir D et al.Journal of colloid and interface science. 2014, Num 416, pp 258-273, issn 0021-9797, 16 p.Article

Hydrodynamics of an ideal aggregate with quadratically increasing permeabilityKIM, Albert S; RONG YUAN.Journal of colloid and interface science. 2005, Vol 285, Num 2, pp 627-633, issn 0021-9797, 7 p.Article

Effects of fluctuating hydrodynamic interaction on the hydrodynamic-radius expansion factor of polymer chainsYAMAKAWA, H; YOSHIZAKI, T.Macromolecules. 1995, Vol 28, Num 10, pp 3604-3608, issn 0024-9297Article

  • Page / 121