Huda, Ichsanul (2016) Studi Pnggunaan Dye Antosianin Kulit Manggis, Dye Sintesis N749, Dan Kuantum Dot CDSE Terhadap Karakteristik Optik Prototipe Dye Sensitized Solar Cell. Undergraduate thesis, Institut Teknologi Sepuluh Nopember.
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Abstract
Dye-Sensitized Solar Cell berbasis dye anotosianin kulit
manggis, dye sintetis N-749, kuantum dot koloid CdSe, dan dye
antosianin kulit manggis dengan penambahan dye sintetis N-749
dan kuantum dot koloid CdSe sebagai pewarna sensitizer telah
dibuat dan karakterisasi. Penambahan dye sintetis N-749 dan
kuantum dot koloid CdSe bertujuan untuk meningkatkan kinerja
fotosensitizer dalam penyerapan cahaya sehingga mampu
meningkatkan efisiensi DSSC. Lima jenis dye sensitizer digunakan
dalam studi disiapkan, yaitu 100% dye antosianin kulit manggis
(tipe 1), 100% dye sintetis N-749 (tipe 2), 100% kuantum dot CdSe
(tipe 3), 20% dye sintetis N-749 + 80% dye antosianin kulit
manggis (tipe 4), dan 20% kuantum dot CdSe + 80% dye
antosianin kulit manggis (tipe 5). Penambahan ini terbukti lebih
meningkatkan penyerapan cahaya, mempersempit energi gap
fotosensitizer, dan meningkatkan efisiensi DSSC daripada hanya
menggunakan dye sensitizer berupa dye antosianin kulit manggis,
dye sintetis N-749, dan kuantum dot CdSe saja sebagai pewarna
sensitizer untuk DSSC. Selanjutnya, efisiensi dapat ditingkatkan
sekitar 134.1% dan 106.3%, masing-masing, dibandingkan
dengan hanya menggunakan dye antosianin kulit manggis saja
sebagai dye sensitizer.
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Dye-Sensitized Solar Cell based on mangosteen, N-749
dyes, colloidal CdSe quantum dots, and mangosteen with the
addition of N-749 dyes and Colloidal CdSe Quantum Dots as dye
sensitizer have been fabricated and characterized. The addition of
N-749 dyes and Colloidal CdSe Quantum Dots aims to improve the
performance of the photosensitizer in the absorption of light so that
can improve the efficiency of DSSC. Five types dye sensitizers
preapred in this study, namely 100% mangosteen (type 1), 100%
N-749 dyes (type 2), 100% CdSe quantum dot(type 3), 20% N-749
dyes + 80% of mangosteen (type 4), and 20% of CdSe quantum dot
+ 80% of mangosteen (type 5). These additions are proven to
enhance absorption of light, narrow the band gap of the
photosensitizer, and improve the efficiency of DSSC compared to
the only use of mangosteen, N-749 dyes, and CdSe quantum dot as
dye sensitizer for the DSSC. Furthermore, the efficiency can be
enhanced around 134.1 dan 106.3%, respectively, compared to the
only use of mangosteen as dye sensitizer.
Item Type: | Thesis (Undergraduate) |
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Additional Information: | RSFi 621.312 44 Hud s 3100016067536 |
Uncontrolled Keywords: | Dye-Sensitized Solar Cell, dye antosianin kulit manggis, dye sintetis N-749 energi gap, kuantum dot CdSe, band gap energy, Colloidal CdSe Quantum Dot, DyeSensitized Solar Cell, Mangosteen, Synthesis Dye N-749 |
Subjects: | T Technology > TK Electrical engineering. Electronics Nuclear engineering > TK2960 Dye-sensitized solar cells. Solar batteries. Solar cells |
Divisions: | Faculty of Mathematics and Science > Physics > 45201-(S1) Undergraduate Thesis |
Depositing User: | - Davi Wah |
Date Deposited: | 25 Feb 2020 07:46 |
Last Modified: | 25 Feb 2020 07:46 |
URI: | http://repository.its.ac.id/id/eprint/75125 |
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