220 A.K. Mukhopadhyay
Campillo, I., Guerrero, A., Dolado, J.S., Porro, A., Ibanez, J.A., Goni, S.: Improvement of
initial mechanical strength by nanoalumina in belite cements. Materials Letters 61(8-9),
1889–1892 (2007)
Cardenas, H.E., Struble, L.J.: Electrokinetic Nanoparticle Treatment of Hardened Cement
Paste for Reduction of Permeability. Journal of Materials in Civil Engineering 18(4),
554–560 (2006)
Cassar, L., Pepe, C., Tognon, G., Guerrini, G.L., Amadelli, R.: White cement for architec-
tural concrete, possessing photocatalytic properties. In: International Congress on the
Chemistry of Cement, Durban, South Africa, vol. 1 (2003); CD
Cassar, L.: Photocatalysis of cementitious materials: clean buildings and clean air. MRS
Bulletin 29(5), 328–331 (2004)
Cervellati, G., Rosa, R.: Use of calcium carbonate particles with high surface area in pro-
duction of plaster, cement, mortar and concrete. PCT Int. Appl. WO 2006134080, 40
(2006)
Chang, T.-P., Shih, J.-Y., Yang, K.-M., Hsiao, T.-C.: Material properties of portland ce-
ment paste with nano-montmorillonite. J. Mater. Sci. 42(17), 7478–7487 (2007)
Chang, T.-P., Shih, J.-Y., Yang, K.-M., Hsiao, T.-C.: Material properties of portland ce-
ment paste with nano-montmorillonite. Journal of Materials Science 42(17), 7478–7487
(2007)
Chen, J., Poon, C.-S.: Photocatalytic construction and building materials: From fundamen-
tals to applications. Build Environ. 44(9), 1899–1906 (2009)
Dalton, J.S., Janes, P.A., Jones, N.G., Nicholson, J.A., Hallam, K.R., Allen, G.C.: Photo-
catalytic oxidation of NOx gases using TiO2: A surface spectroscopic approach. Envi-
ronmental Pollution 120(2), 415–422 (2002)
Dham, M., Rushing, T.S., Helferich, R., Marth, T., Sengupta, S., Revur, R., Weiss, C.A.,
Cummins, K.: Enhancement of reactive powder concrete via nanocement integration.
Journal of Transportation Research Record 2(2142), 18–24 (2010)
Dolado, J.S., Campillo, I., Erkizia, E., de Miguel, Y.R., de Ibarra, Y.S., Porro, A., Ayuela,
A.: Effects of Nanosilica Additions on Cement Pastes. Applications of Nanotechnology
in Concrete Design. In: Proceedings of the International Conference Applications of
Nanotechnology in Concrete Design, pp. 87–96 (2005)
Dolado, J.S., Campillo, I., Porro, A., Sanchez, J.A., Goni, S., Guerrero, A.M., Moragues,
A.: An study on the acceleration of belite cement hydration. Cemento-
Hormigon 78(897), 24–30 (2007)
Fan, J.-J., Tang, J.-Y., Cong, L.-Q., Mcolm, I.J.: Influence of synthetic nano-ZrO2 powder
on the strength property of portland cement. Jianzhu Cailiao Xuebao 7(4), 462–467
(2004) (in Chinese)
Feng, Q., Liang, C.-D., Liu, G.-M.: Experimental study on cement-based composites with
nano-SiO2. Cailiao Kexue Yu Gongcheng Xuebao 22(2), 224–227 (2004) (in Chinese)
Flores, I., Sobolev, K., Torres-Martinez, L.M., Cuellar, E.L., Valdez, P.L., Zarazua, E.:
Peformance of cement systems with Nano-SiO
2
particles produced by suign the sol-gel
method. Journal of Transportation Research Record 1(2141), 10–14 (2010)
Garboczi, E.J.: Concrete nanoscience and nanotechnology: Definitions and applications. In:
Bittnar, Z., Bartos, P.J.M., Nemecek, J., Smilauer, V., Zeman, J. (eds.) Proceedings of
the NICOM3, Nanotechnology in construction, 3rd International Symposium on
Nanotechnology in Construction, Prague, Czech Republic, pp. 81–88 (2009)
Han, B., Guan, X., Ou, J.: Specific resistance and pressure-sensitivity of cement paste ad-
mixing with nano-TiO2 and carbon fiber. Guisuanyan Xuebao 32(7), 884–887 (2004)
(in Chinese)