Ortiz-Landeros J, Pfeiffer H

Language: Spanish
References: 46
Page: 113-120
PDF size: 252.55 Kb.

ABSTRACT

This work is a general review about the synthesis of submicrometric polymeric spheres, used for the synthesis of macrostructured porous materials. Furthermore, the foundations about this processing technique are evaluated, emphasizing its versatility for the preparation of porous materials.

REFERENCES

1. Ishizaki, K., Komarneni, S. & Nanko, M. Porous Materials: Process technology and applications. Materials Technology Series. (Kluwer Academic Publishers, 1998).

2. Lowell, S., Shields, J.E., Thomas, M.A. & Thommes, M. Characterization of Porous Solids and Powders: Surface Area, Pore Size and Density. Particle Technology Series (Kluwer Academic Publishers, 2004).

3. Lystly, J.C. & Stein, A. Ann. Reviews of Nanoresearch (Cao, C.J. ed.) (Brinker, Vol. 1, 2006).

4. Stein, A. Sphere Templating Methods for Periodic Porous Solids. Micropor. Mesopor. Mater. 44-45, 227-239 (2001).

5. Stein, A. & Schroden, R.C. Colloidal crystal templanting of threedimensionally ordered macroporous solids: materials for photonics and beyond. Curr. Op. Solid State Mater. Sci. 5, 553-564 (2001).

6. Velev, O.D. & Lenhoff, A.M. Colloidal crystals for porous materials. Curr. Op. Coll. Inteface Sci. 5, 56-63 (2000).

7. Guliants, V.V., Carreon, M.A. & Lin, Y.S. Ordered mesoporous and macroporous inorganic films and membranes. J. Mem. Sci. 235, 53-72 (2004).

8. Raman, N.K., Anderson, M.T. & Brinker, C.J. Template-based approaches to the preparation of amorphous, nanoporous silicas, Chem. Mater. 8, 1682-1701 (1996).

9. Zhang, J., Chen, Z., Wang, Z., Zhang, W. & Ming, N. Preparation of monodisperse polystyrene apheres in aqueous alcohol system, Mater. Lett. 57, 4466-4470 (2003).

10. Klein, S.M., Manoharan, V.N., Pine, D.J. & Lange, F.F. Preparation of monodisperse PMMA microspheres in nonpolar solvents by dispersion polymerization with a macromonomeric stabilizer. Coll. Polym. Sci. 282, 7-13 (2003).

11. Jiang, P., Bertone, J.F. & Colvin, V.L. A lost-wax approach to monodisperse colloids and their crystals. Sci. 291, 453-457 (2001).

12. Gi-Ra, Y. et al. Generation of uniform photonic balls by templateassisted colloidal crystallization. Synth. Metals 139,803-806 (2003) .

13. Zou, A. Model Filled Polymers I. Synthesis of Crosslinked Monodisperse Polystyrene Beds. J. Polym. Sci. A: Polym. Chem. 28, 1909-1921 (1990).

14. Kling, J.A. & Ploehn, H.J. Synthesis and characterization of epoxyfunctional polystyrene particles. J. Polym. Sci. A: Polym. Chem. 33, 1107-1118 (1995).

15. Zou, A. Model Filled Polymers V. Synthesis of Crosslinked Monodisperse Polymethacrylate Beds. J. Polym. Sci. A: Polym. Chem. 30, 137-144 (1992).

16. Reese, C.E., Guerrero, C.D., Weissman, J.M., Lee, K. & Asher, S.A., Synthesis of highly charged, monodisperse polystyrene colloidal particles for tha fabrication of photonic crystals. J. Coll. Interface Sci. 232, 76-80 (2000).

17. Kim, J.H., Chainey, M., Aasser, M.S. & Vanderhoff, J.W. Emulsifier-free emulsion copolymerization of styrene and sodium styrene sulfonate. J. Polym.Sci. A: Polym. Chem. 30, (1992) 171-183.

18. Novell, P.A. & El-Aasser, M.S. Emulsion Polymerization and Emulsion Polymers (John Wiley & Sons Ltd, 1997).

19. Gooldall, A.R., Wilkinson, M.C. & Eran, J. Mechanism of Emulsion Polymerization of Styrene in Soap-Free Systems. J. Polym. Sci. A: Polym.Chem. 15, 2193-2218 (1977) .

20. Song, Z. & Poehlein, G.W. Kinetics of emulsifier-free emulsion polymerization of styrene. J. Polym. Sci. A: Polym. Chem. 28, 2359-2392 (1990).

21. Tang, F., Uchikoshi, T. & Sakka, Y. A practical technique for the fabrication of highly ordered macroporous structures of inorganic oxides. Mater. Res. Bull. 41, 268-273(2006).

22. Li, S., Zheng, J., Yang, W. & Zhao, Y. A new synthesis process and characterization of three-dimensionally ordered macroporous ZrO2. Mater. Lett. 61, (2007) 4784-4786.

23. Holland, B.T., Blanford, C.F., Do, T. & Stein, A. Synthesis of highly ordered three dimensional macroporous structures of amorphous or crystalline inorganic oxides, phosphates and hybrid composites, Chem. Mater. 11, 795-805(1999).

24. Verissimo, C. & Alves, O.L. Microstructural modifications in macroporous oxides prepared via latex templanting: Synthesis and thermal stability of porous structure. J. Amer. Ceram. Soc. 89, 2226-2231 (2006).

25. Gundiah, G. & Rao, C.N.R. Macroporous oxide materials with three-dimensionally interconnected pores. Solid State Sci. 2, 877-882 (2000).

26. Wang, T., Sel, O., Djerdj, I. & Smarsly, B. Preparation of large mesoporous CeO2 with crystalline walls using PMMA colloidal crystals templates. Coll. Polym. Sci. 285, 1-9 (2006).

27. Bartlett, P.N., Ghanem, M.A., El Hallag, I.S., De Groot, P. & Zhukov, A. Electrochemical deposition of macroporous magnetic networks using colloidal templates. J. Mater. Chem. 13, 2596-2602 (2004).

28. Duran, Y.J.C., Hotta, Y., Sato, K. & Wuatari, K. Macroporous ZrO2 ceramics prepared from colloidally stable nanoparticles building blocks and organic templates. J. Coll. Interface Sci. 291, 292-295 (2005).

29. Kim, Y., Kim, C. & Yi, J. Synthesis of tailored porous alumina with a bimodal pore size distribution. J. Mat. Res. Bull. 39, 2103-2112 (2004).

30. Lu, J., Tang, Z., Zhang, Z. & Shen, W. Preparation of LiFePO4 with inverse opal structure and its satisfactory electrochemical properties. Mater. Res. Bull. 40, 2039-2046 (2005).

31. Santa Cruz, H., Spino, J. & Grathwohl, G. Nanocrystalline ZrO2 ceramics with idealized macropores. J. Europ. Ceram. Soc.28, 1783-1791 (2008).

32. Ortiz-Landeros, J., Contreras-García, M.E. & Pfeiffer, H. Tailored macroporous ZrO2-Al2O3 mixed oxides by template-assisted method: Novel materials for catalytic applications. Adv.In Tech. Mat. Mat. Proc. J. 9, 119-124 (2007).

33. Zhou, L. et al. Fabrication of hydroxyapatite with highly ordered macroporous frame by colloidal templating method. Mat. Res. Bull. 44, 259-262 (2009).

34. Batra, D., Vogt, S., Laible, P.D. & Firestone, M.A. Self-Assembled, Mesoporous Polymeric Networks for Patterned Protein Arrays. Lang. 21, (2005) 10301-10306.

35. Ryu, J.H. et al. Fabrication of Ag nanoparticles-coated macroporous SiO2 structure by using polystyrene spheres. Mater. Chem. Phys. 101, 486-491 (2007).

36. Wang, C. et al. A novel preparation of three-dimensionally ordered macroporous M/Ti (M = Zr or Ta) mixed oxide nanoparticles with enhanced photocatalytic activity. J. Coll. Inter. Sci. 301, 236-247 (2006).

37. Ortiz-Landeros, J., Contreras-García, M.E. & Pfeiffer, H.P. Synthesis of macroporous ZrO2–Al2O3 mixed oxides with mesoporous walls, using polystyrene spheres as template. J.Porous Mater. 16, (2008) 473-479.

38. Ergang, N.S., Lytle, C.J., Yan, H. & Stein, A. Effect of a Macropore Structure on Cycling Rates of LiCoO2. J. Electrochem. Soc.152, A1989 (2005).

39. Li, J. & Sheng, T. A comparison of chemical sensors based on the different ordered inverse opal films. Sensors and Actuators B: Chem. 131, 190-195 (2008).

40. Ze Gu, Z. et al. Rapid synthesis of monodisperse polymer spheres for self-assembled photonic crystals. Coll. Surf. A: Physicochem. Eng. Asp. 302, 312-319 (2007).

41. Liu, Z., Ya, J., Xin, Y., Ma, J. & Zhou, C. Assembly of polystyrene colloidal crystal templates by a dip-drawing method. J. Crystal Growth 297, 223-227 (2006).

42. Chung, Y.W., Leu, I.C., Lee, J.H. & Hon, M.H. Fabrication and characterization of core-shell photonic crystals via a dipping process. Coll. Surf. A:Physicochem. Eng. Asp. 290, 256-262 (2006).

43. Okuyama, K., Abdullah, M., Wuled, I. & Iskandar, F. Preparation of functional nanostructured particles by spray drying. Adv. Powder Tech. 17, 587-611(2006).

44. Iskandar, F. Nanoparticle processing for optical applications – A review. Adv. Powder Tech. 20, 283-292 (2009).

45. Fu, Y., Jin, Z., Liu, Z. & Li, W. Preparation of ordered porous SnO2 films by dip-drawing method with PS colloid crystal templates. J. Europ. Ceram. Soc. 27, 2223-2228 (2007).

46. Liu, Z. et al. Synthesis of PS colloidal crystal templates and ordered ZnO porous thin films by dip-drawing method. Appl. Surf. Sci. 252, 5002-5009 (2006).