Preparation and Desorption Performance of Gelatin Microspheres

Xue Chuan Wang; Xiao Li Hao; Tao Tao Qiang

doi:10.4028/www.scientific.net/AMR.664.609

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HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 664Preparation and Desorption Performance of Gelatin...

Preparation and Desorption Performance of Gelatin Microspheres

Abstract:

A novel microspheres adsorbent was prepared by the emulsion-congealed crosslinking method. The gelatin was as raw material and glutaraldehyde was as the crosslinking agent. The product was characterized by AFM, Zeta Potential Tester and SEM. These results showed that there were some irregular protuberances and grooves on the surface of gelatin microspheres. The relative surface roughness namely Ra was equal to 2.469E+01nm. The isoelectric point of gelatin microspheres was 3.2. Their morphology was almost not affected by treatment of the acid and alkali, and the performance of the acid and alkali resistance was superior. The result of desorption experiment showed that the regeneration ability of gelatin microspheres was stronger in the alkali solution than that in the distilled water. The optimum desorption temperature was 30°C. The desorption process got to balance for 80min. The desorption rate got to 88% in the alkali solution and regeneration effect was obvious. The result of the second-adsorption experiment showed that the desorbed adsorbent which was used in the second-adsorption experienced the same as the first-adsorption process. And the saturated adsorption capacity changed a little. So the gelatin microspheres can be recycled.

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Periodical:

Advanced Materials Research (Volume 664)

Pages:

609-613

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.664.609

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Online since:

February 2013

Authors:

Xue Chuan Wang, Xiao Li Hao, Tao Tao Qiang

Keywords:

Characterization, Desorption Performance, Gelatin Microspheres, Performance of Acid and Alkali Resistance, Preparation

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References

[1] Sun Linli, Gong Yanming, Dan Weihua, et al. Research Advance of the Gelatine Microparticles: Leather and Chemicals, Vol. 27 (2010), pp.22-27.

Google Scholar

[2] Kim S H, Son W K, Kim Y J, et al. Synthesis of Polystyrene/Poly (Butyl Acrylate) Core-latex and its Surface Morphology: Journal of Applied Polymer Science, Vol. 88 (2003), pp.595-601.

DOI: 10.1002/app.11495

Google Scholar

[3] Collagen and Collagen Protein, edtied by Jiang Tingda Publications/Chemical Industry Press, Beijing (2006), in press.

Google Scholar

[4] Bodnar M, Hartmann J F, Borbely J. Preparation and Characterization of Chitosan-based Nanoparticles: Biomacromolecules, Vol. (2005), pp.2521-2527.

DOI: 10.1021/bm0502258

Google Scholar

[5] Liao Xuepin, Zhang Mina, Wang Ru, et al. Adsorption Behavior of Solid Waste of Leather Manufacture: Journal of Chemical Industry and Engineering, Vol. 55 (2004), p.2051-(2059).

Google Scholar

[6] E. Boanini, K. Rubini, S. Panzavolta, et al. Chemico-physical Characterization of Gelatin Films Modified with Oxidized Alginate: Acta Biomaterialia, Vol. 6 (2010), p.383–388.

DOI: 10.1016/j.actbio.2009.06.015

Google Scholar

[7] Rita Cortesi, Elisabetta Esposito, Maria Ostia, et al. Dextran Crosslinked Gelatin Microspheres as a Drug Delivery System: European Journal of Pharmaceutics and Biopharmaceutics, Vol. 47 (1999), pp.153-160.

DOI: 10.1016/s0939-6411(98)00076-9

Google Scholar