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Eka Maulana, ST., MT., M.Eng

Posts Tagged ‘Solar Sel Organik’

Berikut materi kajian jurnal elektronika organik Kelas A, semester genap 2014.
(detail topik terlampir)

Materi yang perlu dikaji meliputi:

  • latar belakang masalah
  • material dan metode eksperimen,
  • hasil dan pembahasan
  • kesimpulan dan diskusi.
Nama No. J. Judul
OKKY * 1 A simple effective method to improve light out-coupling in OLED
NIZAR S* 2 High barrier properties of transparent TFE for top emission OLED
AMIRIL M* 3 Inverted bulk-heterojunction SC with cross-linked hole-blocking layer
DWI Y* 4 novel pyrene …
AKHMAD T* 5 a reduced electron…
BUSTANUL A* 6 Solution-processed annealing-free ZnO  for stable inverted OSC
MOCH AINUN 7 Charge separation in organic photovoltaic cells
APRILIANAWATI * 8 Organic field-effect transistor and its photoresponse
SWARAKA M* 9 Flexible OFET based on electrospun conjugated polymer nanofibers
STEFANUS C* 10 fabrication of screenprinting pastes TiO2 powder
M JAKA * 11 fabrication of thin film dye sensitized solar cell
M RIZAL* 12 Transition metal oxides on organic semiconductors
ANALIS H* 13 Handheld and automated ultrasonic spray deposition
YOKE DADIK 14 Enhancing the short-circuit current, efficiency of inverted OSC
RIZAL W 15 infrared absorption…
ABDUL HARITS * 16 The role of water in the device performance of OFET based gelatin
AGUNG H* 17 Accounting for variability in the design of circuits with OTFT
ABDURROQIIB* 18 Deposition of hole-transport
RICO C* 19 Annealing-free fabrication
BAYU S 20 donor-acceptor copolymer incorporating polybenzo
PRIYO S 21 Natural polyelectrolyte: Major ampullate spider silk for electrolyte OFET
RIFAN R 22 efficient monolithic solid-state
AHMAD F* 23 OPV devices hole-extraction layer deposited by spray-coating


model solar sel organik

Berikut materi kuliah Elektronika Organik “Karakterisasi dan Pemodelan Solar Sel Organik dan DSSC (Dye Sensitized Solar Cell). Download Materi pdf

Materi Sebelumnya:
Pengantar Kuliah

Material Organik
struktur material
Karakteristik Spektrum Optis
Model Temperatur dan Medan Listrik
Model Laju Muatan Solar Sel Organik
Karakteristik dan Model Solar Sel (DSSC)

Lecture Page “Elektronika Organik”

Nets 2013 Proceeding DSSC


Sholeh Hadi Pramono, Eka Maulana, M. Julius St.,  and Teguh Utomo

Electrical Engineering Department, Brawijaya University
Jl. MT Haryono 167 Malang 65145, Ph./Fax: 0341-554166,


This article shows an experimental result of  DSSCs (Dye Sensitized Solar Cell) fabrication and characterization of based on papaya (Carica papaya L.) leaves and  jatropha (Ricinus communis) leaves. Chlorophyll was extracted from the both leaves as organic dye materials to replace previous solar cells based on inorganic materials such as silicon. A TCO (Transparent Conductive Oxide) was used as a substrate material that surrounds the inner layer of DSSC. TiO2 nano particles, natural dyes, electrolytes, and counter electrode combined as an donor-acceptor layer. Thick film screen printing method is used for the adhesion of the TiO2 layer to the substrate. Couples of iodine and tri-iodine electrolyte solution used as an electron donor layer.  We designed the active area cell size of 1.8 x 1.8 cm on two layers of TCO glass substrate. The wavelength absorption measurements of extracted chlorophyll occurs in the spectrum of 300-700nm. We measured open circuit voltages (Voc)  under light illuminance of 18,000 lux are 289 and 245 mV of  papaya and jatropha leaves, respectively. A Sort circuit current was achieved at -17 and -6.7 µA. These cells have already reached fill factors (FF) exceeding 26% and 25%.

Keywords: DSSC, chlorophyll, organic, papaya, jatropha leaves.

  1. O’ Regan, M Gratzel. A low cost, high efficiency solar cell based on dye-sensitized colloidal TiO2 films. Nature 353 (1991) 737-739
  2. M. Gratzel. Photoelectrochemical cell. Nature 414 (2001) 338-344.
  3. S. Ito, T. N. Murakami,, Fabrication of thinfilm dye sensitized solar cell with solar to electric power conversion effieciency over 10%, Thin Solid Film 516 (2008) 4613-4613.
  4. M. Gratzel, Photovoltaic Performance and  long-term stability of dye-sensitized solar meosocopic solar cell, C. R. Chimie 9 (2006) 578-583.
  5. S. Ito, P. Chen, P. Comte, et. al, Fabrication of Screen Printing Pastes From TiO2 Powders for Dye-Sensitized Solar Cells. Prog. in Photovolaics: Research and Applications (2007)  DOI: 10.100/pip. 768.
  6. M. Syahid, et. al, Recent Advancement in natural dye applications: a review.  Jurnal of Cleaner Production  (2013) 1-22.
  7. I. K. Ding, J. M. Kyriazi, N. L. Cevey-Ha,, “Deposition of hole-transport materials in solid-state dye-sensitized solar cells by doctor-blading, Organic Electronic 11 (2010) 1217-1222.
  8. S. S. Kim, et. al, Annealing-free fabrication of P3HR:PCBM solar cell via simple brush painting, Solar Energy Material and Solar Cell 94(2010) 171-175.
  9. V. W. W. Yam , WOLEDs and Organic Photovoltaics.   New York: Springer-Verlag, 2010, ch. 1

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Elektronika Organik – Solar Sel Organik (DSSC)

Berikut materi Solar Sel Organik (DSSC).