DAFTAR PUSTAKA Agustini, S., Risanti., D.D., Sawitri, D., 2013, Fabrikasi Dye Sensitized Solar Cell (DSSC) Berdasarkan Fraksi Volume TiO2 Anatase – Rutile dengan Garcinia mangostana dan Rheo Spathacea sebagai Dye Fotosensitizer, J. Teknik Pomits, 2 (2), 2337-3539. Anonim a, 2011, Plantamor Situs Dunia Tumbuhan: Kesumba, http://www.plantamor.com/index.php?plant=203, diakses 16 April 2011. Anonim b, 2014, http://en.wikipedia.org/wiki/Electrospinning, diakses 9 Juni 2014. Anonim c , 2011, Guide To Interpreting I-V Curve Measurements of PV Arrays, Application Note PVA-600-1, Sometric, diakses 23 Juli 2014. Anonim d, 2014, Introduction of PEC-S20 IPCE Measurement System, Peccell Technologies, Inc.Yokohama, Japan, diakses 11 Agustus 2014. Anonim e, 2014, Calculation of λ max of Organic Compounds Using Woodwarnd Fieser Rules, http://amrita.vlab.co.in/?sub=2&brch=191&sim=850&cnt=1, diakses 11 Agustus 2014. Apriyana, W., 2012, Sintesis TiO2 Mesopori dengan Cetakan Tepung Kentang dan Uji Fotosensitasinya Menggunakan Ekstrak Zat Warna Antosianin Kulit Buah Manggis, Skripsi, FMIPA UGM, Yogyakarta. Baum, L. dan Ng, A., 2004, Curcumin interaction with copper and iron suggests one possible mechanism of action in Alzheimer’s disease animal models, J. Alzheimer’s Disease, 6, 367–377. Bijarbooneh, F.H., Zhou, Y., Sun, Z., Heo, Y.U., Malgras, V., 2013, Structurally Stabilized Mesoporous TiO2 Nanofibers for Efficient Dye-Sensitized Solar Cells, APL Materials, 1(032106), 1-7. Burkill, 1966, Anatto: lipstick tree, Prosea 3, 50. Chiba, Y., Islam, A., Watanabe, Y.,Komiya, R., Koide, N., Han, L., 2006, DyeSensitized Solar Cells With Conversion Efficiency of 11,1%, Japanese. J. App.Phys, 45(25), L638 - L640. Cotton, F.A., Wilkinson, G., Murillo, C.A., Bochmann, M., 1999, Advance Inorganic Chem., 6th Edition, John Wiley & Sons Inc , VanCouver. Dalton, P.D., Klee, D., Moller, M., 2005, Electrospinning with Dual Collection Rings, Polymer, 46 (3), 611-614. Doshi, J. dan Reneker, D.H.,1995, Electrospinning Process and Applications Of Electrospun Fibers, J.Electrostatics, 35 (2-3), 151-160. Duchoslav, J., Rubacek, L., Zukalova, M., Prochazka, J., 2013, Electrospun TiO2 Fibers as a Material for Dye Sensitized Solar Cells, Heyrovsky Institute of Physical, Czech Republic. Effendy, 2007, Perspektif Baru Kimia Koordinasi, Jilid 1, Bayumedia, Indonesia. Ekanayake, P., Zain, R., Iskandar, M., Tennakoon, K., Yoshikawa, S., Seenadera, R., 2011, Evaluation of Dyes From Melastroma Malabathricum : A Native From Borneo as Potential Natural Colour for Dye-Sensitized Solar Cells, Solar Asia Int .Conf. Institute of Fundamental Studies, Kandy, Sri Lanka.
91
92
Elsanousi, A., Elssfah, E.M., Zhang, J., Lin, J., Song, H.S., Tang, C., 2007, Hydrothermal Treatment Duration Effect on The Transformation of Titanate Nanotubes Into Nanoribbons, J. Phys. Chem. C, 111-14353-14357. Evana, 2007, Sintesis dan Aplikasi TiO2 Mesopori dengan Glukosa sebagai Pencetak Pori untuk Sel Surya Berbasis Sensitizer Zat Warna, Skripsi, FMIPA UGM, Yogyakarta. Fessenden,R.J dan Fessenden, J.S,1986, Kimia Organik, Edisi ke 3, Jilid 1, Erlangga, Jakarta Flores, C.I., De Freitas, J.N., Longo, C., De Paoli, M.A., 2007, Dye-Sensitized Solar Cells Based in TiO2 Nanotubes and a Solid-State Electrolyte, J.Photochem. Photobiol. C., 189, 153-160. Francl, M., 2005, Worksheet: Particle in a Box Wavefunctions I, The Culture of Chemistry. De Freitas, J.N., Nogueira, B.I, Ito, Soto-Oviedo, Longo, C., De Pauli, Nogueira, Intern’I.J., 2006, Photoenergy, 1. Freitas, N.A.F., Freitas, J. N.,Winnischofer, H., 2013, Dye Sensitized Solar Cells based on Titania Nanotubes and a Solid-State Electrolyte, Universidade Estadual de Campinas - Campinas SP Brazil. Gratzel, M. and O’Regan, B., 1991, A Low Cost, High Efficiency Solar Cell Based on Dye Sensitized Colloidal TiO2 Film, Nature., 353, 737-739. Gratzel, M., 2004, Conversion of Sunlight to Electric Power by Nanocrystalline Dye Sensitized Solar Cells. J. Photochem. Photobiol., 164, 3-14. Gratzel, M., 2003, Review Dye-Sensitized Solar Cells, J.Photochem. Photobiol. C: Photochem. Rev., 4, 145-153. Green, M.A., Blakers, A.W., Shi, J., Keller, E.M., Wenham, S.R., High Efficiency Silicon Solar Cells, IEEE Transaction on Electron Devices, 31. Green, M.A. Emery, K., King, D.L., Hisikawa, Y., Warta, W., 2006, Solar Cell Efficiency Tables (version 27), Prog. Photovolt. Res. Appl., 14, 45-51. Gomez-Ortiz., N.M., Vazquez-Maldonado, I.A., Perez-Espadas, A.R., Mena-Rejon, G.J., Azamar-Barrios, J.A., Oskam, G., Dye-Sensitized Solar Cells With Natural Dyes Extracted from Achiote Seeds, Sol.Energy.Mat.Sol.Cells, 94, 4044. Hadmanto, A. D., 2012, Gel Elektrolit Berbasis Kitosan sebagai Elektrolit Redoks Semipadat Dalam Sel Surya Tersensitasi Zat Warna, Skripsi, FMIPA, Universitas Gadjah Mada, Yogyakarta. Halme, J., 2002, Dye-Sensitized Nanostructured and Organic Photovoltaic Cells: Technical Review and Preliminary Test, Master’s Thesis, Departement of Engineering Physics and Mathematics, Helsinki University of Technology, Findlandia. Hara, K., Horiguchi, T., Kinoshita, Tohru, Sayama, K., Sugihara, H., Arakawa, H., Highly Eficient Photon-To-Electron Conversion With MercurochromeSensitized Nanoporous Oxide Semiconductor Solar Cells, Sol.Energy Materials.Sol. Cells, 64,115-134
93
Harborne, J. B., 1996, Metode Fitokimia: penuntun cara modern menganalisis tumbuhan, Padmawinata, K. dan Soediro, I. (alih bahasa), Niksolihin, S. (ed), ITB, Bandung. Hoffmann, M.R., Martin, S.M., Choi, W., and D.W. Bahnemann, 1995, Environmental Application of Semiconductor Photocatalystic, Chem. Rev.B, 95,69-96. Hao, S., Wu, J., Huang, Y., Lin, J., 2006, Natural Dyes as Photosensitizers for DyeSensitized Solar Cell, Solar Energy, 80, 209–214. JECFA, 2007, Annatto Extracts (Solvent – Extracted Bixin), World Health Organization, Geneva. Kang, S.H., Kang, M.S., Kim, H.S., Kim, J.Y., Chung, Y.H., Smyrl, W.H., Sung, Y.E., Columnar Rutile TiO2 Based Dye-Sensitized Solar Cells By Radio-Frequency Magnetron Sputtering, J. Power Sources, 184, 331–335 Karrupucamy, S., Jeong, J.M., Almanerkar, D.P., Minoura, H., 2006, Photoinduced Hydrophilicity of Titanium Dioxide Thin Films Prepared by Cathodic Electrodesposition, Vacumm, 5 (80), 494-498. Kartini, I., 2004, Synthesis and Characterization of Mesostructured Titania for Photoelectrochemical Solar Cells, PhD Thesis, Chemical Enggineering, The University of Queensland, Brisbane. Kartini, 2009, Rekayasa Material Berbasis Sumber Daya Alam Silika-Alumina : Sel Surya berbasis Sistem Sandwich Nanokristal Semikonduktor Celah Lebar dan Zat Warna Alam (Natural Dye-sensitized Solar Cells), FMIPA UGM, 3-38 Khalil, M.I., Al-Zahem, A.M., Al-Qunaibit, M.H., 2012, Synthesis, Characterizaton, Mossbauer Parameters, and Antitumor Activity of Fe (III) Curcumin Complex, Hindawi Publishing Corp. Bioinorganic Chemistry and Application. Krysova, H., Barakova, J.T., Prichazka, J., Zukal, A., Maixner, J., Kavan, L., 2013, Titania Nanofibers Photoanodes for Dyes Sensitized Solar Sells, Catal.Today. Levy, W. L., L. Regalado, S. Navarette and S. Watkins, 1997, Bixin and Norbixin in Human Plasma: determination and study of the absorption of a single dose of annatto food color, Analyst, 122, 977-980. Li, B., Wang, L., Kang, B., Qiu, Y., 2006, Review of Recent Preofress in Solid-State Dye Sensitized Solar Cells, Sol.Energy Mater. Sol. Cells, 5(90), 549-573. Li, Y., Scales, N., Blankenship, R.E., Willows, R.D., Chen, M., 2012, Extinction coefficient for red-shifted chlorophylls : chlorophyll d and chlorophyll f, Biochim Biophys acta, 1292-1298. Li, J., Xu, W., Shi, Y., 2012, TiO2 Nanofibers Based Dye Sensitized Solar Cells With Improved Carrier Collection Efficiency, Transaction on Control and Mechanical System, 1(6), 235-238. Li, D., dan Xia, Y., 2013, Fabrication of Titania Nanofibers by Electrospinning, Nano Lett, 2(4), 555-560. Maddu, A., Zuhri, M., Irmansyah, 2007, Penggunaan Ekstrak Antosianin Kol Merah sebagai Fotosensitizer pada Sel Surya TiO2 Nanokristal Tersensitasi Dye, Makara. Teknologi, 11 (2), 78-84.
94
Marco, L.D., Manca, M., Giannuzzi, R., Malara, F., Melcarne, G., Ciccarella, G., Zama, I., Cingolani, R., Gigli, G., Novel Preparation Method of TiO2-NanorodBased Photoelectrodes for Dye-Sensitized Solar Cells with Improved LightHarvesting Efficiency, J. Phys. Chem. C,114,4228–4236 Matthews, D., Infelta, P., Gratzel, M., 1996, Calculation of The Photocurrent-Potential Characteristic for Regenerative Sensitized Semiconductor Electrodes, Sol. Energy Matter. Sol. Cells., 2(44), 119-155. Matthews J.A., Wnek, G.E., Simpson, D.G., Bowlin , G.L. 2002, Electrospinning of collagen nanofibers, Biomacromolecules, 3 (2), p. 232- 238. Mercadante , A. Z., Steck, A., Pfander, H., 1997, Isolation and Identification of New Apocarotenoids from Annatto (Bixa orellana) Seeds, J. Agric. Food Chem.,45,1050−1054. Montenegro, M., Rioz, A., Mercadante, A., Nazareno, M., Borsarelli, C., 2004, Model Studies on the Photosensitized Isomerization of Bixin, J. Agric. Food Chem.,52,367−373. Nair, A.S., Jose, R., Shengyuan, Y., Ramakrishna, S., 2011, A Simple Recipe for an Efficient TiO2 Nanofibers-Based Dye-Sensitized Solar Cell, J.Colloid.Int.Sci. 353, 39-45. Nurama, I. 2010, Penggunaan Pigmen Bixin dari Biji Kesumba (Bixa orellana, L) sebagai Indikator Asam Basa Alami, Skripsi, Universitas Tanjungpura Pontianak. Oliveira, D., I. H. Silva, N. M. Magalhães., aumgartten, 2003, Induction of Liver Monooxygenases by Annatto and Bixin in Female Rats, Brazillian J. Medical and Biological Res. 36: 113-118. Ou, H.H., and Shang-Lien, L., 2007, Review of Titania Nanotubes Synthesized Via The Hydrothermal Treatment Fabrication, Modification and Application, Sep. Purif. Technol, 58, 179-191. Panboon, M.S.S, 2005, Electro-spinning of PVA/Chitosan Fiber for Wound Dressing Application, King Mongkut’s Institute of Technology North Bangkong. Park, J.Y., Choi, S.W., Asokan, K., Kim, S.S., 2010, Controlling the Size of Nanograins in TiO2 Nanofibers, Met. Matter. Int. 16(5), 785-788. Pavarinpong, N., Pratontep, S., Phromyothin, D.S., Jarernboon, W., 2012, Investigation on Achiote Dyes Structure for Dye- Sensitized Solar Cells, Geometrics and Electronic Properties, Experiment and DFT Calculations, Paccon, 1317-1320. Pavia, D. L., Lampman, G.M., Kriz, G.S., Vyvyan, J.R., 2001, Introduction Spectroscopy, Forth Edition, Department of Chemistry, Western Washington University, Bellingham, Washington. Rahmalia, W., 2008, Sintesis dan karakterisasi fotostabilitas organoclay kaolinit bixin terhadap sinar ultraviolet, Tesis, Universitas Kristen Satya Wacana, Salatiga. Rahmalia, W., Rondonuwu, F. S., Karwur, F. dan Wahyuni, N., 2010, Interkalasi Pigmen Bixin pada Antarlapis Kaolinit dan Aplikasinya sebagai Protektor Ultraviolet, J. Almamater Tanjungpura.
95
Rahmalia, W., Fabre, J.F., Usman, T., Mouloungui, Z., 2014, Aprotic Solvents Effect on The UV–Visible Absorption Spectra of Bixin, Spectrochim. Acta Part A: Molecular and Biomolecular, 131, 455–460. Refat, M.S., 2013, Synthesis and Characterization of Ligational Behavior of Curcumin Drug Towards Some Transition Metal Ions: Chelation Effect on Their Thermal Stability and Biological Activity, Spectrochim. Acta. A: Molecular and Biomolecular, 105, 326-337. Rios, A., Marcadante, A., Borsalleli, C., 2007, Triplet State Energy of The Carotenoid Bixin Determined by Photoacoustic Colorimetry, Dyes Pigments, 74: 561-565. Robinson, 1995, Kandungan Organik Tumbuhan Tinggi, Institut Teknologi Bandung, Bandung. Rodriguez, D. R. A., 2001, A Guide to Carotenoid Analysis in Food, International Life Science Institute Press, Washington, D.C. Rodriguez and Amaya, D. B., 1997, Carotenoid and Food Preparation: the retention of provitamin-A carotenoids in prepared, processed, and stored foods, Universidade Estadual de Campinas, Brazil. Sadek, P., 2002, Solvent Miscibility and Viscosity Chart ;The HPLC Solvent Guide, Wiley-Interscience. Sari, P., Agustina, F., Komar, M., Unus, Fauzi, M., Lindriati, T., 2005, Ekstraksi dan Stabilitas Antosianin dari Kulit Buah Dawet, J.Teknol Industri Pangan, XVI,2. Sautter, B.P., 2005, Countinuous Polymer Nanofiber Using Electrospinning. University of Illinois, Chicago. Schmidt-Mende, L. dan Gratzel, M., 2006, Thin Solid Films 500, 296. Shafiee, A., Salleh, M.M., Yahya, M., 2001, Determination Of HOMO and LUMO of [6,6]-Phenyl C61-Butyric Acid 3-Ethylthiophene Ester and Poly (3-OctylThiophene-2,5-Dyil) Through Cyclic Voltammetry Characterization, Sains Malaysiana, 2(40), 173-176. Silverstein, R.M., Bassler, G.C., Morril, T.C., 1986, Penyedikan Spektrometrik Senyawa Organil. Edisi 4. Erlangga, Jakarta. Smith, 2006, Annatto Extracts, Chem. Technic Ass. 1, 21. Suratman, A., Buchari, Noviandri, I., Gandasasmita, S., 2004, Studi Proses Elektropolimerisasi Pirol dengan Teknik Voltametri Siklis, Indo.J.Chem., 2(4), 117-124. Theivasanthi, T. dan Alagar, M., 2010, Titanium Dioxide (TiO2) Nanoparticles- XRD Analyses- An Insight, Centre for Research and Post Graduate Departement of Physics, Ayya Nadar Janaki Ammal College, Sivakasi, Tamilnadu, India. Teresita, R.A, Norma, F.H, Daniel, G.M, 2010, Natural Carotenoids as Nanomaterial Precursors for Molecular Photovoltaics: A Computational DFT Study , Molecules, 15, 4490-4510. Varghese, K. dan Grimes, C.A., Appropriate Strategies For Determining The Photoconversion Efficiency of Water Photoelectrolysis Cells: A Review With Examples Using Titania Nanotube Array Photoanodes Oomman, Sol.Energy Materials. Sol. Cells, 92, 374–384
96
Wang, J., 1994, Analytical Electrochemistry, VHC Publishers Inc., New York. Wang, Y.M., Lean, J.L., Sheeley, N.R., Modelling The Suns’s Magnetic Field and Irradiance Since 1713, Astrophysical J., 625, 522–538. Wang, J., Jin, E.M., Park, J.Y., Wang, W.L., Zhao, X.G., Gu, H.B., 2012, Increases in solar conversion efficiencies of the ZrO2 nanofiber-doped TiO2 photoelectrode for dye-sensitized solar cells, Nanoscale Research Letters,7(98). Wei, Z., Yao, Y., Huang, T., Yu, A., Solvothermal Growth of Well-Aligned TiO2 Nanowire Arrays for Dye-Sensitized Solar Cell: Dependence of Morphology and Vertical Orientation Upon Substrate Pretreatment, Int. J. Electrochem. Sci., 6, 1871 – 1879. Wu, D., Liu, J., Zhao, X., Li, A., Chen, Y., Ming., M., 2006, Sequence of Events for Thr Formation of Titanate Nanotubes, Nanofibers, Nanowires, and Nanobelts, Chem. Mater., 18, 547-553. Wu, T.Y., Tsao, M.H., Chen, F.L., Su, S.G., Chang, C.W., Wang, H.P., Lin, Y.C., Sun, I.W., 2010, Synthesis and Characterization of Three Organic Dyes with Various Donors and Rhodamine Ring Acceptor for Using in Dye-Sensitized Solar Sells, J.Iran. Chem. Soc., 3(7), 707-720. Yamazaki, E., Murayama, M., Nishikawa, N., Hashimoto, N., Shoyama, M., Kurita, O., 2007, Utilization of Natural Carotenoids as Photosensitizers for DyeSensitized Solar Cells, Solar Energy, 81, 512–516. Yanagisawa, K. and Ovenstobe, J., 1999, Crystallization of Anatase from Amorphous Titania Using The Hydrothermal Technique: Effect of Starting Material and Temperature, J. Phys. Chem. B, 103, 7781-7787. Zanotti, G., Angelini, N., Notarantonio, S., Paoletti, A.M., Pannesi, G., Rossi, G., Lembo, A., Colonna, D., Carlo, A.D., Reale, A., Brown, T.M., Calogero, G., 2010, Bridged Phthalocyanine Systems for Sensitization of Nanocrystalline TiO2 Films, International Journal of Photoenergy, ArticleID136807. Zhao, J., Jia, C., Duan, H., Li, H., Xie, E., 2008, Structural Properties and Photoluminescence of TiO2 Nanofibers were Fabricated by Electrospinning, J. Alloys and Compounds, 461, 447–450. Zhao, X.Z., Jiang, T., Wang, L., Yang, H.,Zhang, S., Zhou, P., 2010, Interaction of Curcumin With Zn(II) and Cu(II) Ions Basen on Experiment and Theoretical Calculation, J.Molecular Structure, 984, 316-325. Zhou, H., Wu., L., Gao, Y., Ma, T., 2011, Dye Sensitized Solar Cells Using 20 Natural Dyes as Sensitizer, J. Photochem. Photobiol., 219, 188-194. Zubaidi, 2008. Nanofiber dan Elektrospinning serta Pemanfaatannya dalam Pembuatan Tekstil Masa Depan. Balai Besar Tekstil. Bandung. Zukalova, M., Ladislav Kavan, L., Procha´zka, J., Zukal, A., Yum, J.H., Graetzel, M., 2013, Nanofibrous TiO2 Improving Performance of Mesoporous TiO2 Electrode in Dye-Sensitized Solar Cell, J Nanopart Res, 15, 1640.