S FIS 1100461 Bibliography
62
Daftar Pustaka
Agarkar, S. A., Kulkarni, R. R., Dhas, V. V., Chinchansure, A. A., Hazra, P.,
Joshi, S. P., & Ogale, S. B.. (2011). Isobutrin from butea monosperma
(flame of the forest): a promising new natural sensitizer belonging to
chlmcone class. Applied materials and antarmukas Publication, American
Chemical Society, 3 ,hlm. 2440 - 2444.
Al-Alwani, M. A., Mohamad, A. B., Kadhum, A. A., & Ludin, N. A..
(2014).Effect of solvents on the extraction of natural pigments and
adsorption onto TiO2 for dye-sensitized solar cell appliction. Elsevier,
Journal of Spectrochimica Acta Part A: Molecular and Biomolecular
Spectroscopy ,138, hlm.130 -137.
Alhamed, M., Issa, A. S., & Doubal, A. W.. (2012). Studying of natural dyes
properties as photo-sensitizer
for dye sensitized solar cells (DSSC).
Journal of Electron Devices, 16, hlm .1370 -1383.
Fouedjou, R., Teponno, R., Quassinti, L., Bramucci, M., D. Petrelli, L. V., Fiorini,
D., Barboni, L.. (2014). Steroidal saponins from the leaves of Cordyline
Fruticosa (L.) A. Chev. and their cytotoxic and antimicrobial activity.
Phytochemistry Letters ,7, hlm. 62 - 68
Bisquert, J & Santiago, F.F. (2010). Impedance Spectroscopy: a general
introduction and application to Dye-Sensitized Solar Cells. Dalam K.
Kalyanasundaram
(penyunting),
Dye-sensitized
Solar
Cells.
Lausane,Switzerland : EPFL Press.
Calogero, G., Yum, J.-H., Sinopoli, A., Marco, G. D., Gratzel, M., &
Nazeeruddin, M. K.. (2012). Anthocyanin and betalains as light-harvesting
pigments for dye-sensitized solar cells. Elsevier, Journal of solar energi ,
86, hlm.1563-1575.
Calogero, G., Citro, I., Marco, G. D., Minicante, s., Morabito, M., & Genovese,
G..
(2013).
Brown
seaweed
pigment
as
a
dye
source
Romi Nugraha, 2015
KARAKTERISTIK FOTOFISIKA-KIMIA FOTOSENSITIZER HANJUANG (CORDYLINE FRUTICOSA)
PADA DYE SENSITIZED SOLAR CELLS
Universitas Pendidikan Indonesia | repository.upi.edu | perpustakaan.upi.edu
for
63
photoelectrochemical solar cells. Elsevier, Journal of Spectrochimica Acta
Part A : Molecular and Biomolecular Spectroscopy ,117, hlm.702 - 706.
Chakraborty, A., Ahamed, S., Pal, S., & Saha, S. K.. (2013). Cyclic voltammetric
investigations of thiazine dyes on modified electrodes. Hindawi Publishing
Corporation, ISRN Electrochemistry.
Chang, H., Wu, H., Chen, T., Huang, K., Jwo, C., & Lo, Y.. (2009). Dye
sensitized solar cell using natural dyes extracted from spinach and
ipomoea. Elsevier ,Journal of Alloy and Compounds, 495, hlm. 606 - 610.
Chang, H., Hsieh, T.-J., Chen, T.-L., Huang, K.-D., Jwo, C.-S., & Chien, S.-H.
.(2009). Dye-sensitized solar cells made with TiO2-coated multi-wall
carbon nanotubes and natural dyes extracted from ipomoea. Journal of
Materials Materials Transactions, 50, hlm. 2879 - 2884.
Chang, H., Cho, K.-C., Chen, T.-L., Chu, K.-H., & Jiang, L.-J.. (2011).
Preparation and characterization of anthocyanin dye and elektroda lawan
thin film with carbon nanotubes for dye-sensitized solar cells. Journal of
Materials Transactions, 52, hlm. 1977 - 1982.
Etinski, M., Petkovic, M., & Ristic, M. M..(2013). A study of the low-lying
singlet and triplet electronic states of chlorophyll a and b. Journal of
Serbian Chemical Society, 78, hlm. 1775–1787.
Fattori, Alberto. (2010). Electrochemical and spectroelectrochemical studies of
dyes used in dye-sensitized solar cells. Department of Chemistry,
University of Bath.
Freitas, J. M., Costa, R. C., Brasil, H. S., Lobato, A. K., Neto, C. F., Filho, B. G.,
Silva, M. H.. (2013). Action of NPK formulations on concentration of
nutrients, photosynthetic pigments, and biochemical responses in Cordyline
terminalis plants. Journal of Food, Agriculture & Environment ,11, hlm. 1475
- 1479.
Romi Nugraha, 2015
KARAKTERISTIK FOTOFISIKA-KIMIA FOTOSENSITIZER HANJUANG (CORDYLINE FRUTICOSA)
PADA DYE SENSITIZED SOLAR CELLS
Universitas Pendidikan Indonesia | repository.upi.edu | perpustakaan.upi.edu
64
Hao, S., Wu, J., Huang, Y., & Lin, J.. (2006). Natural dyes as photosensitizer for
dye-sensitized solar cell. Elsevier, Journal of Solar energi, 80, hlm. 209 -
214.
Herdiman, Very. (2015). Inilah 4 langkah kementerian esdm capai listrik 35 ribu
mw.[Online].
Diakses
dari
http://br-online.co/inilah-4-langkah-
kementerian-esdm-capai-listrik-35-ribu-mw/
Hemalatha, K., Karthick, S., Raj, C. J., Hong, N.-Y., Kim, S.-K., & Kim, H.-J..
(2012). Performance of kerria japonica and rosa chinensis flower dyes as
sensitizers
for
dye-sensitized
solar
cells.
Elsevier,
Journal
of
Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy,
96, hlm. 305 - 309.
Kalyanasundaram, K. Dan Gratzel, M..(1998). Applications of functionalized
transition metal complexes in photonic and optoelectronic devices.
Coordination Chemistry Reviews, 77, hlm. 347–414
Li, Y., Ku, S.-H., Chen, S.-M., Ali, M. A., & AlHemaid, F. M.. (2013).
Photoelectrochemistry for red cabbage extract as natural dye to develop a
dye-sensitized solar cells. International Journal of Electrochemical
Science, 8, hlm. 1237 - 1245.
Lohrman, J., Zhang, C., Zhang, W., & Ren, S.. (2012). Semiconducting singlewall carbon nanotube and covalent organic polyhedron-c60 nanohybrids
for light harvesting. Electronic Supplementary Material (ESI) for
Chemical Communications, The Royal Society of Chemistry, 48, hlm.
8377-8379
Louisiana State University Macromolecular Studies Group server. Viscosity.
[Online].
Diakses
dari:
http://macro.lsu.edu/HowTo/solvents/viscosity.htm
Miao, Q., Gao, J., Wang, Z., Yu, H., Luo, Y., & Ma, T.. (2011). Syntheses and
characterization of several nickel bis(dithiolene) complexes with strong
and broad near-IR absorption. Elsevier, journal of Inorganica Chimica
Acta , 376, hlm. 619–627.
Romi Nugraha, 2015
KARAKTERISTIK FOTOFISIKA-KIMIA FOTOSENSITIZER HANJUANG (CORDYLINE FRUTICOSA)
PADA DYE SENSITIZED SOLAR CELLS
Universitas Pendidikan Indonesia | repository.upi.edu | perpustakaan.upi.edu
65
Nurhayati & Suendo V.. (2011). Isolation of chlorophyll a from spinach leaves
and modification of center ion with Zn2+: study on its optical stability.
Jurnal Matematika & Sains,16, hlm. 65-70
Narayan, Monishka Rita. (2012). Review: dye sensitized solar cells based on
natural photosensitizers. Journal of Renewable and Sustainable Energy
Reviews, 16, hlm. 208-215
Prima, Eka Cahya (2013). Performansi dye sensitized solar cell menggunakan
fotoelektroda TiO2 nanopartikel. (Tesis). Sekolah Pascasarjana, Institut
Teknologi Bandung, Bandung.
Prima, E. C., Yuliarto, B., Suyatman, & Dipojono, H. K.. (2015) Theoretical
investigation of anthocyanidin aglycones as photosensitizers for dyesensitized tio2 solar cells. Advanced Materials Research , 1112, hlm. 317320.
Sarker, S., Ahammad, A., Seo, H. W., & Kim, D. M.. (2014). Electrochemical
Impedance Spectra of Dye-Sensitized Solar Cells: Fundamentals and
Spreadsheet Calculation. International Journal of Photoenergy, Hindawi
Publishing Corporation.
Singh, L. K., Karlo, T., & Pandey, A.. (2013). Performance of fruit extract of
melastoma malabathricum L. As sensitizer in DSSC. Elsevier, Journal of
Spectrochimica Acta Part A : Molecular and Biomolecular Spectroscopy,
118, hlm. 938 - 943.
Sreekala, C. O., Jinchu, I., Sreelatha, K. S., Janu, Y., Prasad, N., Kumar, M., . . .
Roy, M. S.. (2012). Influence of solvents and surface treatment on
photovoltaic response of dssc based on natural curcumin dye. IEEE
Journal Of Photovoltaics, hlm. 2156 - 3381
Stuart, Barbara. (2004). Ifrared Spectroscopy: Fundamentals and Applications.
United States :Wiley.
Taha. H.S., El-Rahman, A., Fathalla, R., Abd-El-Kareem, M., & U.E., A.. (2008).
Successful application for enhancement and production of anthocyantn
Romi Nugraha, 2015
KARAKTERISTIK FOTOFISIKA-KIMIA FOTOSENSITIZER HANJUANG (CORDYLINE FRUTICOSA)
PADA DYE SENSITIZED SOLAR CELLS
Universitas Pendidikan Indonesia | repository.upi.edu | perpustakaan.upi.edu
66
pigment from calli cultures of some ornamental plants. Australian Journal
of Basic and Applied Sciences, 2, 4, hlm. 1148 - 1156
Mardiana, Silvia Widya. (2010). Dye-sensitized Solar Cell (DSSC): Sel Surya
Organik. [Online]. Diakses dari : http://majalahenergi.com/forum/energibaru-dan%20terbarukan/energi-surya/dye-sensitized-solar-cell-dssc-selsurya-organik
Tanpa
nama.
Photosynthesis
pigments.
[Online].
Diakses
dari
:
http://www2.mcdaniel.edu/Biology/botf99/photo/p3igments.html
Wang, X.-F., Tamiaki, H., Wang, L., Tamai, N., Kitao, O., Zhou, H., & Sasaki,
S.-i.. (2010). Chlorophyll-a derivatives with various hydrocarbon ester
groups for efficient dye-sensitized solar cells: static and ultrafast
evaluations on electron injection and charge collection processes.
Langmuir , American Chemical Society, hlm. 6320–6327.
Wongcharee, K., Meeyoo, V., & Chavadej, S.. (2007). Dye -sensitized solar cell
using natural dyes extracted from rosella and blue pea flowers. Elsevier,
Solar Energi Materials & Solar Cells , 91, hlm. 566 – 571
Wrolstad, R. E., Acree, T. E., An, H., Decker, E. A., Penner, M. H., Reid, D. S., . .
. Sporns, P.. (2001). Current protocols in food analytical chemistry. John
Wiley and Sons.
Ye, L., Tian, L., Peng, T., & Zan, L.. (2011). Synthesis of highly symmetrical
BiOI
single-crystal
nanosheets
and
their
{001}
facet-dependent
photoactivity. Electronic Supplementary Material (ESI) for Journal of
Materials Chemistry. The Royal Society of Chemistry, 21, hlm. 12479 -
12484
Yusoff, A., N.T.R.N.Kumara, Lim, A., Ekanayake, P., & Tennakoon, K. U..
(2014). Impacts of temperature on the stability of ropical plant pigments as
sensitizers for dye sensitized solar cells. Journal of Biophysics ,Hindawi
Publishing Corporation.
Romi Nugraha, 2015
KARAKTERISTIK FOTOFISIKA-KIMIA FOTOSENSITIZER HANJUANG (CORDYLINE FRUTICOSA)
PADA DYE SENSITIZED SOLAR CELLS
Universitas Pendidikan Indonesia | repository.upi.edu | perpustakaan.upi.edu
67
Zhang, J., Yu, C., Wang, L., Li, Y., Ren, Y., & Shum, K.. (2014). Energy barrier
at the N719-dye/CsSnI3 antarmuka for photogenerated holes in dyesensitized solar cells. Scientific Report. www.nature.com.
Zhou, H., Wu, L., Gao, Y., & Ma, T.. (2011) Dye-sensitized solar cells using 20
natural dyes as sensitizers. Journal of Photochemistry and Photobiology A:
Chemistry 219, hlm. 188–194
Romi Nugraha, 2015
KARAKTERISTIK FOTOFISIKA-KIMIA FOTOSENSITIZER HANJUANG (CORDYLINE FRUTICOSA)
PADA DYE SENSITIZED SOLAR CELLS
Universitas Pendidikan Indonesia | repository.upi.edu | perpustakaan.upi.edu
Daftar Pustaka
Agarkar, S. A., Kulkarni, R. R., Dhas, V. V., Chinchansure, A. A., Hazra, P.,
Joshi, S. P., & Ogale, S. B.. (2011). Isobutrin from butea monosperma
(flame of the forest): a promising new natural sensitizer belonging to
chlmcone class. Applied materials and antarmukas Publication, American
Chemical Society, 3 ,hlm. 2440 - 2444.
Al-Alwani, M. A., Mohamad, A. B., Kadhum, A. A., & Ludin, N. A..
(2014).Effect of solvents on the extraction of natural pigments and
adsorption onto TiO2 for dye-sensitized solar cell appliction. Elsevier,
Journal of Spectrochimica Acta Part A: Molecular and Biomolecular
Spectroscopy ,138, hlm.130 -137.
Alhamed, M., Issa, A. S., & Doubal, A. W.. (2012). Studying of natural dyes
properties as photo-sensitizer
for dye sensitized solar cells (DSSC).
Journal of Electron Devices, 16, hlm .1370 -1383.
Fouedjou, R., Teponno, R., Quassinti, L., Bramucci, M., D. Petrelli, L. V., Fiorini,
D., Barboni, L.. (2014). Steroidal saponins from the leaves of Cordyline
Fruticosa (L.) A. Chev. and their cytotoxic and antimicrobial activity.
Phytochemistry Letters ,7, hlm. 62 - 68
Bisquert, J & Santiago, F.F. (2010). Impedance Spectroscopy: a general
introduction and application to Dye-Sensitized Solar Cells. Dalam K.
Kalyanasundaram
(penyunting),
Dye-sensitized
Solar
Cells.
Lausane,Switzerland : EPFL Press.
Calogero, G., Yum, J.-H., Sinopoli, A., Marco, G. D., Gratzel, M., &
Nazeeruddin, M. K.. (2012). Anthocyanin and betalains as light-harvesting
pigments for dye-sensitized solar cells. Elsevier, Journal of solar energi ,
86, hlm.1563-1575.
Calogero, G., Citro, I., Marco, G. D., Minicante, s., Morabito, M., & Genovese,
G..
(2013).
Brown
seaweed
pigment
as
a
dye
source
Romi Nugraha, 2015
KARAKTERISTIK FOTOFISIKA-KIMIA FOTOSENSITIZER HANJUANG (CORDYLINE FRUTICOSA)
PADA DYE SENSITIZED SOLAR CELLS
Universitas Pendidikan Indonesia | repository.upi.edu | perpustakaan.upi.edu
for
63
photoelectrochemical solar cells. Elsevier, Journal of Spectrochimica Acta
Part A : Molecular and Biomolecular Spectroscopy ,117, hlm.702 - 706.
Chakraborty, A., Ahamed, S., Pal, S., & Saha, S. K.. (2013). Cyclic voltammetric
investigations of thiazine dyes on modified electrodes. Hindawi Publishing
Corporation, ISRN Electrochemistry.
Chang, H., Wu, H., Chen, T., Huang, K., Jwo, C., & Lo, Y.. (2009). Dye
sensitized solar cell using natural dyes extracted from spinach and
ipomoea. Elsevier ,Journal of Alloy and Compounds, 495, hlm. 606 - 610.
Chang, H., Hsieh, T.-J., Chen, T.-L., Huang, K.-D., Jwo, C.-S., & Chien, S.-H.
.(2009). Dye-sensitized solar cells made with TiO2-coated multi-wall
carbon nanotubes and natural dyes extracted from ipomoea. Journal of
Materials Materials Transactions, 50, hlm. 2879 - 2884.
Chang, H., Cho, K.-C., Chen, T.-L., Chu, K.-H., & Jiang, L.-J.. (2011).
Preparation and characterization of anthocyanin dye and elektroda lawan
thin film with carbon nanotubes for dye-sensitized solar cells. Journal of
Materials Transactions, 52, hlm. 1977 - 1982.
Etinski, M., Petkovic, M., & Ristic, M. M..(2013). A study of the low-lying
singlet and triplet electronic states of chlorophyll a and b. Journal of
Serbian Chemical Society, 78, hlm. 1775–1787.
Fattori, Alberto. (2010). Electrochemical and spectroelectrochemical studies of
dyes used in dye-sensitized solar cells. Department of Chemistry,
University of Bath.
Freitas, J. M., Costa, R. C., Brasil, H. S., Lobato, A. K., Neto, C. F., Filho, B. G.,
Silva, M. H.. (2013). Action of NPK formulations on concentration of
nutrients, photosynthetic pigments, and biochemical responses in Cordyline
terminalis plants. Journal of Food, Agriculture & Environment ,11, hlm. 1475
- 1479.
Romi Nugraha, 2015
KARAKTERISTIK FOTOFISIKA-KIMIA FOTOSENSITIZER HANJUANG (CORDYLINE FRUTICOSA)
PADA DYE SENSITIZED SOLAR CELLS
Universitas Pendidikan Indonesia | repository.upi.edu | perpustakaan.upi.edu
64
Hao, S., Wu, J., Huang, Y., & Lin, J.. (2006). Natural dyes as photosensitizer for
dye-sensitized solar cell. Elsevier, Journal of Solar energi, 80, hlm. 209 -
214.
Herdiman, Very. (2015). Inilah 4 langkah kementerian esdm capai listrik 35 ribu
mw.[Online].
Diakses
dari
http://br-online.co/inilah-4-langkah-
kementerian-esdm-capai-listrik-35-ribu-mw/
Hemalatha, K., Karthick, S., Raj, C. J., Hong, N.-Y., Kim, S.-K., & Kim, H.-J..
(2012). Performance of kerria japonica and rosa chinensis flower dyes as
sensitizers
for
dye-sensitized
solar
cells.
Elsevier,
Journal
of
Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy,
96, hlm. 305 - 309.
Kalyanasundaram, K. Dan Gratzel, M..(1998). Applications of functionalized
transition metal complexes in photonic and optoelectronic devices.
Coordination Chemistry Reviews, 77, hlm. 347–414
Li, Y., Ku, S.-H., Chen, S.-M., Ali, M. A., & AlHemaid, F. M.. (2013).
Photoelectrochemistry for red cabbage extract as natural dye to develop a
dye-sensitized solar cells. International Journal of Electrochemical
Science, 8, hlm. 1237 - 1245.
Lohrman, J., Zhang, C., Zhang, W., & Ren, S.. (2012). Semiconducting singlewall carbon nanotube and covalent organic polyhedron-c60 nanohybrids
for light harvesting. Electronic Supplementary Material (ESI) for
Chemical Communications, The Royal Society of Chemistry, 48, hlm.
8377-8379
Louisiana State University Macromolecular Studies Group server. Viscosity.
[Online].
Diakses
dari:
http://macro.lsu.edu/HowTo/solvents/viscosity.htm
Miao, Q., Gao, J., Wang, Z., Yu, H., Luo, Y., & Ma, T.. (2011). Syntheses and
characterization of several nickel bis(dithiolene) complexes with strong
and broad near-IR absorption. Elsevier, journal of Inorganica Chimica
Acta , 376, hlm. 619–627.
Romi Nugraha, 2015
KARAKTERISTIK FOTOFISIKA-KIMIA FOTOSENSITIZER HANJUANG (CORDYLINE FRUTICOSA)
PADA DYE SENSITIZED SOLAR CELLS
Universitas Pendidikan Indonesia | repository.upi.edu | perpustakaan.upi.edu
65
Nurhayati & Suendo V.. (2011). Isolation of chlorophyll a from spinach leaves
and modification of center ion with Zn2+: study on its optical stability.
Jurnal Matematika & Sains,16, hlm. 65-70
Narayan, Monishka Rita. (2012). Review: dye sensitized solar cells based on
natural photosensitizers. Journal of Renewable and Sustainable Energy
Reviews, 16, hlm. 208-215
Prima, Eka Cahya (2013). Performansi dye sensitized solar cell menggunakan
fotoelektroda TiO2 nanopartikel. (Tesis). Sekolah Pascasarjana, Institut
Teknologi Bandung, Bandung.
Prima, E. C., Yuliarto, B., Suyatman, & Dipojono, H. K.. (2015) Theoretical
investigation of anthocyanidin aglycones as photosensitizers for dyesensitized tio2 solar cells. Advanced Materials Research , 1112, hlm. 317320.
Sarker, S., Ahammad, A., Seo, H. W., & Kim, D. M.. (2014). Electrochemical
Impedance Spectra of Dye-Sensitized Solar Cells: Fundamentals and
Spreadsheet Calculation. International Journal of Photoenergy, Hindawi
Publishing Corporation.
Singh, L. K., Karlo, T., & Pandey, A.. (2013). Performance of fruit extract of
melastoma malabathricum L. As sensitizer in DSSC. Elsevier, Journal of
Spectrochimica Acta Part A : Molecular and Biomolecular Spectroscopy,
118, hlm. 938 - 943.
Sreekala, C. O., Jinchu, I., Sreelatha, K. S., Janu, Y., Prasad, N., Kumar, M., . . .
Roy, M. S.. (2012). Influence of solvents and surface treatment on
photovoltaic response of dssc based on natural curcumin dye. IEEE
Journal Of Photovoltaics, hlm. 2156 - 3381
Stuart, Barbara. (2004). Ifrared Spectroscopy: Fundamentals and Applications.
United States :Wiley.
Taha. H.S., El-Rahman, A., Fathalla, R., Abd-El-Kareem, M., & U.E., A.. (2008).
Successful application for enhancement and production of anthocyantn
Romi Nugraha, 2015
KARAKTERISTIK FOTOFISIKA-KIMIA FOTOSENSITIZER HANJUANG (CORDYLINE FRUTICOSA)
PADA DYE SENSITIZED SOLAR CELLS
Universitas Pendidikan Indonesia | repository.upi.edu | perpustakaan.upi.edu
66
pigment from calli cultures of some ornamental plants. Australian Journal
of Basic and Applied Sciences, 2, 4, hlm. 1148 - 1156
Mardiana, Silvia Widya. (2010). Dye-sensitized Solar Cell (DSSC): Sel Surya
Organik. [Online]. Diakses dari : http://majalahenergi.com/forum/energibaru-dan%20terbarukan/energi-surya/dye-sensitized-solar-cell-dssc-selsurya-organik
Tanpa
nama.
Photosynthesis
pigments.
[Online].
Diakses
dari
:
http://www2.mcdaniel.edu/Biology/botf99/photo/p3igments.html
Wang, X.-F., Tamiaki, H., Wang, L., Tamai, N., Kitao, O., Zhou, H., & Sasaki,
S.-i.. (2010). Chlorophyll-a derivatives with various hydrocarbon ester
groups for efficient dye-sensitized solar cells: static and ultrafast
evaluations on electron injection and charge collection processes.
Langmuir , American Chemical Society, hlm. 6320–6327.
Wongcharee, K., Meeyoo, V., & Chavadej, S.. (2007). Dye -sensitized solar cell
using natural dyes extracted from rosella and blue pea flowers. Elsevier,
Solar Energi Materials & Solar Cells , 91, hlm. 566 – 571
Wrolstad, R. E., Acree, T. E., An, H., Decker, E. A., Penner, M. H., Reid, D. S., . .
. Sporns, P.. (2001). Current protocols in food analytical chemistry. John
Wiley and Sons.
Ye, L., Tian, L., Peng, T., & Zan, L.. (2011). Synthesis of highly symmetrical
BiOI
single-crystal
nanosheets
and
their
{001}
facet-dependent
photoactivity. Electronic Supplementary Material (ESI) for Journal of
Materials Chemistry. The Royal Society of Chemistry, 21, hlm. 12479 -
12484
Yusoff, A., N.T.R.N.Kumara, Lim, A., Ekanayake, P., & Tennakoon, K. U..
(2014). Impacts of temperature on the stability of ropical plant pigments as
sensitizers for dye sensitized solar cells. Journal of Biophysics ,Hindawi
Publishing Corporation.
Romi Nugraha, 2015
KARAKTERISTIK FOTOFISIKA-KIMIA FOTOSENSITIZER HANJUANG (CORDYLINE FRUTICOSA)
PADA DYE SENSITIZED SOLAR CELLS
Universitas Pendidikan Indonesia | repository.upi.edu | perpustakaan.upi.edu
67
Zhang, J., Yu, C., Wang, L., Li, Y., Ren, Y., & Shum, K.. (2014). Energy barrier
at the N719-dye/CsSnI3 antarmuka for photogenerated holes in dyesensitized solar cells. Scientific Report. www.nature.com.
Zhou, H., Wu, L., Gao, Y., & Ma, T.. (2011) Dye-sensitized solar cells using 20
natural dyes as sensitizers. Journal of Photochemistry and Photobiology A:
Chemistry 219, hlm. 188–194
Romi Nugraha, 2015
KARAKTERISTIK FOTOFISIKA-KIMIA FOTOSENSITIZER HANJUANG (CORDYLINE FRUTICOSA)
PADA DYE SENSITIZED SOLAR CELLS
Universitas Pendidikan Indonesia | repository.upi.edu | perpustakaan.upi.edu