How to cite this paper
Hosseinzadeh, H. (2013). Synthesis and swelling properties of a poly(vinyl alcohol)-based superabsorbing hydrogel.Current Chemistry Letters, 2(3), 153-158.
Refrences
1. Buchholz, F. L. and Graham, A. T. (1997) Modern Superabsorbent Polymer Technology, Wiley, New York.
2. Krul, L. P., Narciko, E. I., Matusevich, Y. I., Yakimtsova, L. B., Matusevich, V. and Seeber, W. (2000) Water super absorbents based on copolymers of acrylamide with sodium acrylate. Polym. Bull., 45, 159-165.
3. Dorkoosh, F. A., Brussee, J., Verhoef, J. C., Borchard, G., Rafeiee-Tehrani, M. and Juninger, H. E. (2000) Preparation and NMR characterization of superporous hydrogels (SPH) and SPH composites. Polymer 41, 8213-8220.
4. Zhou, H. Y., Zhang, Y. P., Zhang, W. F. and Chen, X. G. (2011) Biocompatibility and characteristics of injectable chitosan-based thermosensitive hydrogel for drug delivery. Carbohyd. Polym. 83, 1643-1647.
5. Wu, W. and Wang, D. (2010) A fast pH-responsive IPN hydrogel: Synthesis and controlled drug delivery. React. Funct. Polym., 70, 684–691.
6. Peppas, L. B., and Harland, R. S. (1990) Absorbent Polymer Technology; Elsevier, Amsterdam.
7. Po R. (1994) Water-absorbent Polymers, A Patent Survey. J. Macromol. Sci-Rev. Macromol. Chem. Phys., 34, 607-662.
8. Hoffman, A. S. (1996) Polymeric Materials Encyclopedia. J.C. Salamone (Ed.), CRC Press, Boca Raton, Florida, p. 3282.
9. Galaev, I., Mattiasson, B. (2007) Smart Hydrogels, in: Smart Polymers, Applications in Biotechnology and Biomedicine, Second Edition, CRC Press, Taylor & Francis Group.
10. Ozturk, V. and Okay, O. (2002) Temperature sensitive poly(N-t-butyl acrylamide-co-acrylamide) hydrogels: synthesis and swelling behavior. Polymer, 43, 5017-5026.
11. Qu, X., Wirse´n. A. and Albertsson, A. C. (2000) Novel pH-sensitive chitosan hydrogels: swelling behavior and states of water. Polymer, 41, 4589-4598.
12. Juang, J. H., Bonner, W. S., Ogawa, Y. J., Vacanti, P. and Weir, G. C. (1996) Outcome of subcutaneous islet transplantation improved by polymer device. Transplantation, 61, 1557–1561.
13. Chen, D. H., Leu, J. C. and Huang, T. C. (1994) Transport and hydrolysis of urea in a reactor–separator combining an anion exchange membrane and immobilized urease. J. Chem. Technol. Biotechnol. 61, 351–357.
14. Hyon, S. H., Cha, W. I., Ikada, Y., Kita, M., Ogura, Y., Honda, Y. (1994) Poly(vinyl alcohol) hydrogels as soft contact lens material. J. Biomater. Sci. Polym. Ed. 5, 397–406.
15. Li, J. K., Wang, N., and Wu, X. S. (1998) Poly(vinyl alcohol) nanoparticles prepared by freezing–thawing process for protein/peptide drug delivery. J. Control. Rel. 56, 117–126.
16. Varshosaz, J. and Koopaie, N. (2002) Cross-linked poly (vinyl alcohol) hydrogel: study of swelling and drug release behavior. Iranian Polym. J. 2, 123-131.
17. Yoshii, F., Makuuchi, K., Darwis, D., Iriawan, T., Razzak, M. T., and Rosiak, J. M. (1995) Heat resistance poly(vinyl alcohol) hydrogel. Radiat. Phys. Chem. 46, 169–174.
18. Peppas, N. A. (1977) Development of crosslinked PVA biomembranes. Polym. Prepr. 1, 794–797.
19. Peppas, N. A. (1975) Turbidimetric studies of aqueous poly (vinyl alcohol) solutions. Makromol. Chem. 176, 3433–3440.
20. Stauffer, S. R., and Peppas, N. A. (1992) Poly(vinyl alcohol) hydrogels prepared by freezing–thawing cyclic processing. Polymer 33, 3932–3936.
21. Hernandez, R., Lopez, D., Mijangos, C., and Guenet, J. M. (2002) A reappraisal of the ‘‘Thermoreversible’’ gelation of aqueous poly(vinyl alcohol) solutions through freezing–thawing cycles. Polymer 43, 5661–5663.
22. Ramazani-Harandi, M. J., Zohuriaan-Mehr, M. J., Yousefi, A. A., Ershad-Langroud, A., and Kabiri, K. (2006) Rheological determination of the swollen gel strength of superabsorbent polymer hydrogels. Polym. Test. 25, 470-474.
2. Krul, L. P., Narciko, E. I., Matusevich, Y. I., Yakimtsova, L. B., Matusevich, V. and Seeber, W. (2000) Water super absorbents based on copolymers of acrylamide with sodium acrylate. Polym. Bull., 45, 159-165.
3. Dorkoosh, F. A., Brussee, J., Verhoef, J. C., Borchard, G., Rafeiee-Tehrani, M. and Juninger, H. E. (2000) Preparation and NMR characterization of superporous hydrogels (SPH) and SPH composites. Polymer 41, 8213-8220.
4. Zhou, H. Y., Zhang, Y. P., Zhang, W. F. and Chen, X. G. (2011) Biocompatibility and characteristics of injectable chitosan-based thermosensitive hydrogel for drug delivery. Carbohyd. Polym. 83, 1643-1647.
5. Wu, W. and Wang, D. (2010) A fast pH-responsive IPN hydrogel: Synthesis and controlled drug delivery. React. Funct. Polym., 70, 684–691.
6. Peppas, L. B., and Harland, R. S. (1990) Absorbent Polymer Technology; Elsevier, Amsterdam.
7. Po R. (1994) Water-absorbent Polymers, A Patent Survey. J. Macromol. Sci-Rev. Macromol. Chem. Phys., 34, 607-662.
8. Hoffman, A. S. (1996) Polymeric Materials Encyclopedia. J.C. Salamone (Ed.), CRC Press, Boca Raton, Florida, p. 3282.
9. Galaev, I., Mattiasson, B. (2007) Smart Hydrogels, in: Smart Polymers, Applications in Biotechnology and Biomedicine, Second Edition, CRC Press, Taylor & Francis Group.
10. Ozturk, V. and Okay, O. (2002) Temperature sensitive poly(N-t-butyl acrylamide-co-acrylamide) hydrogels: synthesis and swelling behavior. Polymer, 43, 5017-5026.
11. Qu, X., Wirse´n. A. and Albertsson, A. C. (2000) Novel pH-sensitive chitosan hydrogels: swelling behavior and states of water. Polymer, 41, 4589-4598.
12. Juang, J. H., Bonner, W. S., Ogawa, Y. J., Vacanti, P. and Weir, G. C. (1996) Outcome of subcutaneous islet transplantation improved by polymer device. Transplantation, 61, 1557–1561.
13. Chen, D. H., Leu, J. C. and Huang, T. C. (1994) Transport and hydrolysis of urea in a reactor–separator combining an anion exchange membrane and immobilized urease. J. Chem. Technol. Biotechnol. 61, 351–357.
14. Hyon, S. H., Cha, W. I., Ikada, Y., Kita, M., Ogura, Y., Honda, Y. (1994) Poly(vinyl alcohol) hydrogels as soft contact lens material. J. Biomater. Sci. Polym. Ed. 5, 397–406.
15. Li, J. K., Wang, N., and Wu, X. S. (1998) Poly(vinyl alcohol) nanoparticles prepared by freezing–thawing process for protein/peptide drug delivery. J. Control. Rel. 56, 117–126.
16. Varshosaz, J. and Koopaie, N. (2002) Cross-linked poly (vinyl alcohol) hydrogel: study of swelling and drug release behavior. Iranian Polym. J. 2, 123-131.
17. Yoshii, F., Makuuchi, K., Darwis, D., Iriawan, T., Razzak, M. T., and Rosiak, J. M. (1995) Heat resistance poly(vinyl alcohol) hydrogel. Radiat. Phys. Chem. 46, 169–174.
18. Peppas, N. A. (1977) Development of crosslinked PVA biomembranes. Polym. Prepr. 1, 794–797.
19. Peppas, N. A. (1975) Turbidimetric studies of aqueous poly (vinyl alcohol) solutions. Makromol. Chem. 176, 3433–3440.
20. Stauffer, S. R., and Peppas, N. A. (1992) Poly(vinyl alcohol) hydrogels prepared by freezing–thawing cyclic processing. Polymer 33, 3932–3936.
21. Hernandez, R., Lopez, D., Mijangos, C., and Guenet, J. M. (2002) A reappraisal of the ‘‘Thermoreversible’’ gelation of aqueous poly(vinyl alcohol) solutions through freezing–thawing cycles. Polymer 43, 5661–5663.
22. Ramazani-Harandi, M. J., Zohuriaan-Mehr, M. J., Yousefi, A. A., Ershad-Langroud, A., and Kabiri, K. (2006) Rheological determination of the swollen gel strength of superabsorbent polymer hydrogels. Polym. Test. 25, 470-474.