Nanoporous Silica-Based Materials for Sorption of Pharmaceuticals and Biomolecules

• Authors: Karolina Gdula , Mariusz Barczak
• Languages of publication: EN

Abstracts

EN

Our concern in this paper is to review four kinds of mesoporous silica materials which can be used as potential sorbents for pharmaceuticals. It is known that a continuous development of science, medicine and food industry has an effect on contamination of the natural environment. Moreover, many impurities, such as drugs, vitamins or proteins etc., which get into environment from urban and hospital wastes, can also influence on human organisms. Thus, there is a need to control an amount of those compounds, especially in the natural waters and wastewaters [1-4]. In this work, we present four types of silica materials which can be helpful in water purification by using adsorption process.

Keywords

EN

nanoporous silica-based materials; adsorption; pharmaceuticals; biomolecules; environmental protection

• Journal: Annales UMCS, Chemia
• Year: 2014
• Volume: 68
• Issue: 1-2
• Pages: 1-12

Dates

online

17 - 10 - 2014

Contributors

author

Karolina Gdula

• Department of Theoretical Chemistry, Faculty of Chemistry, Maria Curie-Skłodowska University Maria Curie-Skłodowska Sq. 3, 20-031 Lublin,

author

Mariusz Barczak

• Department of Theoretical Chemistry, Faculty of Chemistry, Maria Curie-Skłodowska University Maria Curie-Skłodowska Sq. 3, 20-031 Lublin,

References

• 1. J. Tolls, Environmental Science and Technology, 35, 3397, (2001).
• 2. A. Joss, F. Keller, A. Alder, A. Goebel, C. McArdel, T. A. Ternes and H. Siegrist, Water Research, 39, 3139, (2005).[Crossref]
• 3. B. Halling Sorensen, S. Nors Nielsen, P.F. Lanzky, F. Ingersiev, H. C. Holten Lutzheft and S.E. Jorgensen, Chemosphere, 36, 357, (1997).
• 4. C. Tixier, H.P. Singer, S. Oellers and S.R. Müller, Environmental Science and Technology, 37, 1061, (2003).[Crossref]
• 5. T.X. Bui and H. Choi, Journal of Hazardous Materials, 168, 602, (2009).
• 6. C.H. Lee, T.S. Lin and C.Y. Mou, Nano Today, 4, 165, (2009).[Crossref]
• 7. C. Sandu and R.K. Singh, Food Technology, 45, 84, (1991).
• 8. J.A. Hubbel, Biotechnology, 13, 565, (1995).
• 9. K. Ishihara, H. Oshida, Y. Endo, T. Ueda, A. Watanabe and N. Nakabayashi, Journal of Biomedical Materials Research, 26, 1543, (1992).[Crossref]
• 10. M. Feng, A.B. Morales, T. Beugeling, A. Bantjes, K. Vanderwerf, G. Gosselink, B. Degrooth and J. Greve, Journal of Colloid and Interface Science, 177, 364, (1996).
• 11. C.T. Kresge, M.E. Leonowicz, W.J. Roth, J.C. Vartuli and J.S. Beck, Nature, 359, 710, (1992).
• 12. J.S. Beck, J.C. Vartuli, J.W. Roth, M.E. Leonowicz, C.T. Kresge, K.D. Schmitt, C.T.-W. Chu, D.H. Olson, E.W. Sheppard, S.B. McCullen, J.B. Higgins and J.L. Schlenker, Journal of the American Chemical Society, 114, 10834, (1992).[Crossref]
• 13. T. Tang, Y. Zhao, Y. Xu, D. Wu, J. Xu and F. Deng, Applied Surface Science, 257, 6004, (2011).
• 14. M. Barczak, A. Dąbrowski, S. Pikus, J. Ryczkowski, P. Borowski and M. Kozak, Adsorption, 16, 457, (2010).[Crossref]
• 15. E.I. Basaldella and M.S. Legnoverde, Journal of Sol-Gel Science and Technology, 56, 191, (2010).[Crossref]
• 16. A. Walcarius, M. Etienne and B. Lebeau, Chemistry of Materials, 15, 2161, (2003).[Crossref]
• 17. A.M. Liu, K. Hidajat, S. Kawi and D.Y. Zhao, Chemical Communications, 1145, (2000).
• 18. S.L. Burkett, S.D. Sims and M. Mann, Chemical Communications, 11, 1367, (1996).[Crossref]
• 19. A.S. Maria Chong and Z.S. Zhao, Journal of Physical Chemistry B, 107, 12650, (2003)
• 20. X.S. Zhao and G.Q. Lu, Journal of Physical Chemistry B, 102, 1556, (1998).
• 21. D.Y. Zhao, J.L. Feng, Q.S. Huo, N. Melosh, G.H. Fredrickson, B.F. Chmelka and G.D. Stucky, Science, 279, 548, (1998).
• 22. D.Y. Zhao, Q.S. Huo, J.L. Feng, B.F. Chmelka and G.D. Stucky, Journal of the American Chemical Society, 120, 6024, (1998).[Crossref]
• 23. A. Popat, S.B. Hartono, F. Stahr, J. Liu, S.-Z. Qiao, G.-X. Lu, Nanoscale, 3, 2801, (2011).[PubMed]
• 24. M. Hartmann, Chemistry of Materials, 17, 4577, (2005).
• 25. J.F. Diaz and K.J. Balkus, Journal of Molecular Catalysis B, 2, 115, (1996).
• 26. J. Andersson, J. Rosenholm, S. Areva and M. Linden, Chemistry of Materials, 16, 4160, (2004).[Crossref]
• 27. M. Vallet-Regí, F. Balas and D. Arcos, Mesoporous Materials for Drug Delivery, Angew. Chem. Int. Ed. 2007, 46, 7548 – 7558
• 28. F. Qu, G. Zhu, S. Huang, S. Li, J. Sun, D. Zhang and S. Qiu, Microporous and Mesoporous Materials, 92, 1, (2006).
• 29. Y. Wang and F. Caruso, Chemistry of Materials, 17, 953, (2005).[Crossref]
• 30. A.L. Doadrio, E.M.B. Sousa, J.C. Doadrio, J. Perez-Pariente, I. Izquierdo-Barba and M. Vallet-Regi, Journal of Controlled Release, 97, 125, (2004).
• 31. J.C. Doadrio, E.M.B. Sousa, I. Izquierdo-Barba, J. Perez-Pariente and M. Vallet-Regi, Journal of Materials Chemistry, 16, 462, (2006).[Crossref]
• 32. M. Vallet-Regi, J.C. Doadrio, A.L. Doadrio, I. Izquierdo-Barba and J. Perez-Pariente, Solid State Ionics, 172, 435, (2004).
• 33. J.C. Doadrio, E.M.B. Sousa, I. Izquierdo-Barba, J. Perez-Pariente and M. Vallet-Regi, Journal of Materials Chemistry, 16, 462, (2006).[Crossref]
• 34. Q. Gao, W. Xu, Y. Xu, D. Wu, Y. Sun, F. Deng and W. Shen, The Journal of Physical Chemistry B, 112, 2261, (2008).
• 35. A.J. O'Connor, A. Hokura, J.M. Kisler, S. Shimazu, G.W. Stevens, Y. Komatsu, Separation and Purification Technology, 48, 197, (2006).
• 36. S. Ernst, M. Hartmann and S. Munsch, Studies in Surface Science and Catalysis, 135, 4566, (2001).
• 37. S. Munch, M. Hartmann and S. Ernst, Chemical Communications, 1978, (2001).
• 38. J. Zhao, F. Gao, Y. Fu, W. Jin, P. Yang and D.D. Zhao, Chemical Communications, 7, 752, (2002).[Crossref]
• 39. J. Deere, E. Magner, J.G. Wall and B.K. Hodnett, Chemical Communications, 465, (2001).
• 40. J. Deere, E. Magner, J.G. Wall and B.K. Hodnett, Studies in Surface Science and Catalysis, 135, 3694, (2001).
• 41. L. Washmon-Kriel, V.L. Jimenez and K.J. Balkus Jr., Journal of Molecular Catalysis B, 10, 453, (2000).
• 42. H.H.P. Humphrey, C.H. Botting, N.P. Botting and P.A. Wright, Physical Chemistry Chemical Physics, 3, 2983, (2001).
• 43. A. Vinu, V. Murugesan, O. Tangerman and M. Hartmann, Chemistry of Materials, 16, 6056, (2004).
• 44. A. Vinu, C. Sterb, V. Murugesan and M. Hartmann, The Journal of Physical Chemistry B, 107, 8297, (2003).
• 45. M. Vallet-Regi, A. Ramila, R.P. del Real and J. Perez-Pariente, Chemistry of Materials, 13, 308, (2001).
• 46. B. Munoz, A. Ramila, J. Perez-Pariente, I. Diaz and M. Vallet-Regi, Chemistry of Materials, 15, 500, (2003).
• 47. Y.F. Zhu, J.L. Shi, H.R. Chen, W.H. Shen and X.P. Dong, Turret Materials, 84, 218, (2005).
• 48. G. Cavallaro, P. Pierro, F.S. Palumbo, F. Testa, L. Pasqua and R. Aiello, Drug Delivery, 11, 41, (2004).[Crossref]
• 49. J.M. Kisler, A. Dahler, G.W. Stevens and A.J. O'Connor, Microporous Mesoporous Materials, 44-45, 769, (2001).
• 50. T. Tang, X. Li, Y. Xu, D. Wu, Y. Sun, J. Xu and F. Deng, Colloids and Surfaces B, 84, 571, (2011).
• 51. P. Schmidt-Winkel, W.W. Lukens Jr., P. Yang, D.I. Margolese, J.S. Lettow and J.Y. Ying, Chemistry of Materials, 12, 686, (2000).
• 52. P. Schmidt-Winkel, W.W. Lukens Jr., D. Zhao, P. Yang, B.F. Chmelka and G.D. Stucky, Journal of the American Chemical Society, 121, 254, (1999).
• 53. J.S. Lettow, Y.J. Han, P. Schmidt-Winkel, P. Yang, D. Zhao, G.D. Stucky and J.Y. Ying, Langmuir, 16, 8291, (2000).[Crossref]
• 54. J. Kim, R.J. Desch, S.W. Thiel, V.V. Guliants and N.G. Pinto, Microporous and Mesoporous Materials, 149, 60, (2012).
• 55. J. Kim, R.J. Desch, S.W. Thiel, V.V. Guliants and N.G. Pinto, Journal of Chromatography A, 1218, 7796, (2011).
• 56. J. Kim, J. Desch, S.W. Thiel, V.V. Guliants and N.G. Pinto, Journal of Chromatography A, 1218, 6697, (2011).
• 57. P.A. Russo, M.M.L. Ribeiro Carrott, P.A.M. Mourao and P.J.M. Carrott, Colloids and Surfaces A, 386, 25, (2011).
• 58. P.H. Pandya, R.V. Jasra, B.L. Newalkar and P.N. Bhatt, Microporous and Mesoporous Materials, 77, 67, (2005).[Crossref]
• 59. S. Huang, Ch. Li, Zi. Cheng, Y. Fan, P. Yang, C. Zhang, K. Yang and J. Lin, Journal of Colloid and Interface Science, 376, 312, (2012).
• 60. J. Yang, F. Zhang, W. Li, D. Gu, D. Shen, J. Fan, W. Zhang and D. Zhao, Chemical Communications, 50, 713, (2014).[Crossref]
• 61. F. Sezoes, M.M.L. Ribeiro Carrott, P.A.M. Mourao and P.J.M. Carrott, Adsorption Science & Technology, 28, 777, (2011).
• 62. J. Zhao, Y. Wang, G. Luo and S. Zhu, Bioresource Technology, 101, 7211, (2010).[Crossref]
• 63. S. Zhu, D. Zhang and N. Yang, Journal of Nanoparticle Research, 11, 561, (2009).[Crossref]
• 64. M. Zhao, Y. Wang, Z. Liu, D. Cui and X. Bian, Journal of Macromolecular Science, Part A, 48, 447, (2011).[Crossref]
• 65. J. Bryjak, K. Szymańska and A.B. Jarzębski, Chemical and Process Engineering, 33, 611 (2012).
• 66. Z. Gu, Y. Han, F. Pan, X. Wang, D. Weng and S. Zhou, Materials Science and Engineering, 610, 109, (2009).
• 67. D. Kumar, K. Schumacher, C. du Fresne von Hohenesche, M. Grün and K.K. Unger, Colloids and Surfaces A, 187-188, 109, (2001).
• 68. L.A. de Miranda, N.D.S. Mohallemb and Welington F. de Magalhaes, Applied Surface Science, 252, 3466, (2006).
• 69. C.A. Aerts, E. Verraedt, R. Mellaerts, A. Depla, P. Augustijns, J. Van Humbeeck, G. Van den Mooter and J.A. Martens, The Journal of Physical Chemistry C, 111, 13404, (2007).
• 70. M. Tortajada, D. Ramon, D. Beltran and Pedro Amoros, Journal of Materials Chemistry, 15, 3859, (2005).[Crossref]
• 71. Z.H. Yin, X. Liu and Z.X. Su, Bulletin of Material Science, 33, 351, (2010).[Crossref]
• 72. H. Nakamura and Y. Matsui, Journal of the American Chemical Society, 117, 2651, (1995).
• 73. Q. Xiao, X. Tao and J. Chen, Industrial & Engineering Chemistry Research, 46, 459, (2007).[Crossref]
• 74. X. Pe, J. Zhang, S. Wang, Y. Chen, X. Wu, Y. Li, B. Li and Y. Yang, Journal of Sol-Gel Science and Technology, 50, 397, (2009).
• 75. J.X. Wang, L.X. Wen, R.J. Liu and J.F. Chen, Journal of Solid State Chemistry, 178, 2383, (2005).
• 76. Y. Yang, X, Tao, Q. Hou, Y. Ma, X. Chen and J. Chen, Acta Biomaterialia, 6, 3092, (2010).[Crossref]
• 77. H. Ding, L. Shao, R. Liu, Q. Xiao and J. Chen, Journal of Colloid and Interface Science, 290, 102, (2005).

Identifiers

DOI

10.2478/umcschem-2013-0001