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Article cité :
M. Daoud
J. Physique Lett., 40 9 (1979) 201-205
Citations de cet article :
38 articles
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Salt effects on the cross-linking mechanism of cupric-induced sol—gel transition in alginate solutions
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Interaction mechanism in sol-gel transition of alginate solutions by addition of divalent cations
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Solvent effects on sol-gel transition of alginate solutions by addition of cupric ions
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Intermediate swelling of gels
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Advances in Chemical Physics
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A. E. Gonzalez and S. Muto The Journal of Chemical Physics 73 (9) 4668 (1980) https://doi.org/10.1063/1.440659
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