41 Gratzel, M., Zakeeruddin, S. 2008. High Performance Dye-sensitized Solar Cells Based on Solvent-free Electrolytes Produced from Eutectic Melts. Nature Materials. 7: 626-630. Handayani, S. Haryadi, W. 1998. Modifikasi Sintesis Zeolit A sebagai Bahan Pengisi Detergen Builder. Cakrawala Pendidikan. 1: XVII. Yogyakarta: LPM IKIP Yogyakarta. Kartini, I. 2004; Synthesis and Characterization of Mesostructured Titania for Photoelectrochemical Solar Cells. Disertation. Scool of Engineering: The University of Queensland Australia. Ma Tingli, L., Akiyama, M., Abe, E., Imai, I. 2005.High-Efficiency Dye- Sensitized Solar Cell Based on a Nitrogen-Doped Nanostuctured Titania Electrode. Nano Letter. 512. 2543-2547. Malvino, B., Tjia. 1986. Aproksimasi Rangkaian Semikonduktor Penghantar Transistor dan Rangkaian Terpadu. Jakarta: Erlangga. Manseki, K., Y. Konde, T. Ban, T. Sugira T. Yoshida. 2003. Size-Controlled Synthesis of Anisotrapic TiO 2 Single Nanocrystals Using Microwave Irradiation and Their Application for Dye-Sensitized Solar Cells. Dalton Trans. 42: 3295-3299. Mikhalow, E., Vlanseko, S., Martin, S.T. Koop, T., 2009. Amorphous and Crystalline Interacting with Water Vapor: Conceptual Framework and Experimental Evidence for Restructuring. Phase Transitions and Kinetic Limitations. Atmospheric Chemistry and Physics. 9:9491- 95222. Morales, J. Pena, J.S, 2007. Highly Electroactive Nanosized a-LiFeO 2 . Electrochemistry Communication. 9. 2116-2120. Nakamura, R., Tanaka T., Nakato, Y. 2004. Mechanism for Visible Light Responses in Anodic Photocurrents at N-Doped TiO 2 Film Electrodes. Journal of Physical Chemistry B. 108 30. 10617-10620 . Ollis, D.F. Elkabi. 1993. Photocatalytic Purification and Treatment of Water and Air.Amsterdam: Elsevier. Park, C., Zhang, S., Wei, H. 2002. The Effect of Nitrogen Ion Implatation of the Photoactivity of TiO 2 Rutile Single Crystals. Physical Reviews B. 66. 7320-7351. Pujianto, T.H. 2009. Pengaruh Konsentrasi Natrium Hidroksida dan Temperatur 22 Anil terhadap Struktur Nano dan Tingkat Kristalinitas 42 TiO 2 Nanotubes. Prosiding. Seminar Material Metalurgi. Serpong: LIPI. Sastrohamidjojo, H. 2007. Spektroskopi. Yogyakarta: Liberty Yogyakarta. Sato, S. 1986. Photocatalytic of NO x - doped TiO 2 in the Visible Light Region. Chemical Physics Letters. 1231: 126-128. Shifu, Chen Gengyu, Cao. 2005. Photocatalytic Degradation of Organophosphorus Pesticides Using Floating Photocatalyst TiO 2 . SiO 2 Beads by Sunlight. Journal of Solar Energy. 791.1-9. Smallman, R.E. 1991. Metalurgi Fisik Modern. Jakarta: PT. Gramedia. Su, C., Hang, B.Y. Tseng, C.M. 2004. Sol-gel Preparation and Photocatalysis of Titanium Dioxide. Catalysis Today. 96. 119-126. Sutanding, K. 2008. Pengaruh Subtitusi Atom Mn pada Struktur Partikel Nanomagnetik Besi Oksida. Skripsi. FMIPA UI. Sutrisno, H. 2009. Tinjauan Mikrostruktur Kereaktifan Anatas dan Rutil Sebagai Material Superfotohidrofil Permukaan. Prosiding. FMIPA UNY. Tang, H., Prasad, K., Sanjines, R., Schmidt, P.E. Levy, F. 1994. Electrical and Optical Properties of TiO 2 Anatase Thin Films. Journal of Applied Physics. 75. 2042-2047. Qiu, X. Burda, C. 2007. Chemically Synthesized Nitrogen-doped Metal Oxide Nanoparticles. Chemical Physics. 339. 1-10. Wade, J. 2005. An Investigation of TiO 2 -ZnFe 2 O 4 Nanocomposites for Visible Light Photocatalysis. Thesis. University of South Florida: Department of Electrical Engineering. Wang, C., Bahnemann, D.W., Dowrmann, J.K. 2000. A Novel Preparation of Iron-doped TiO 2 Nanoparticles with Enchaced Photocatalytic Activity. Chemical Communications. 1539-1540. West, A.R. 1984. Solid State Chemistry and its Applications.Singapura: John Willey Sons. Xie, P.H., Hou, Y.J. Huang, C.H. 2000. Synthetic Routes to Homoleptic and Heteroleptic RutheniumII Complexes Incorporating Bindetate Imine Ligands. Inorganiac Chimica Acta. 308. 73-88.