PENGARUH KONSENTRASI PIGMEN WARNA DARI DAUN PACAR KUKU (Lawsonia inermis L.) TERHADAP EFISIENSI DYE SENSITIZED SOLAR CELL (DSSC)
Abstract
There was research on Dye Sensitized Solar Cell to determine the effect of concentration Henna (Lawsonia inermis L.) leaves pigments on the efficiency of DSSC. The solar cell is made with a sandwich structure, the dye used is made in three variations of concentration is concentration of 10%, 20% and 30%. TiO2 deposition on ITO glass made using the method of doctor blade with a cell area of 2.25 cm2 for 24 hours of immersion in the dye. Based on the results of measurements of IV by using a source of light, DSSC efficiency for dye obtained with a concentration of 30% which is 0.003366667%, to dye with a concentration of 20% is 0.0033264% and to dye with a concentration of 10% which is 0.000312%. This research can be concluded that the higher the concentration of dye used, the higher the efficiency of DSSC generated.
References
Fanditya Rakhman, Doddy.,dkk. Pengaruh variasi konsentrasi klorofilter hadap daya keluaran dye sensitized solar cell (DSSC). Malang: Universitas Brawijaya.
Henni, dkk.2012. Studi Awal Fabrikasi Dye Sensitized Solar Cell(DSSC) Menggunakan Ekstraksi Bunga Sepatu(Hibiscus Rosa Sinensis L) Sebagai Dye Sensitized Dengan Variasi Lama Absorpsi Dye.Surabaya: Institut Teknologi Sepuluh November.
IA Risnah, A Aisyah, I Iswadi, J Saokani, 2018. The Photosensitizer from the Basic Dye Extract of the Skin Fruit of Eggplant (Solanum melongena L.). Jurnal Alkimia. UIN Alauddin Makassar
KA Putri, A Aisyah, S Suriani, I Iswadi, 2017. Pengaruh Kandungan Senyawa pada Ekstrak Daun Ketapang n-Heksan, Etil Asetat, Metanol dan Campuran Terhadap Nilai Efisiensi Dye Sensitized Solar Cell (DSSC). Jurnal Alkimia. UIN Alauddin Makassar
Mariya,dkk.2013. Karakteristik Pasta Tio2 Suhu Rendah Untuk Aplikasi Dye Sensitied Solar Cell (DSSC).Bandung: Universitas Pendidikan Indonesia.
MS Maming, A Aisyah, S Suriani, I Iswadi, 2017. Photosenzitizer dari Fraksi Metanol: N-Heksana Buah Cabe Merah (Capsiccum Annum L.). Jurnal Alkimia. UIN Alauddin Makassar
O’regandanGratzel, M. 1991. A Low Cost, High Efficiency Solar Cell Based On Dye-Sensitized Colloidal TiO2 Film. Nature vol. 353. Issue 6346, 737.
Prestiyana,dkk.2010. Pengaruh Pelarut Metanol Dan Metanol-Asam Asetat-Air Terhadap Efisiensi Dye Sensitized Solar Cell Dari Ekstrak Bunga Rosela (Hibiscus Sabdariffa).Universitas Diponegoro. Jurnal Sains & Matematika (JSM) Volume 18, Nomor 4.
Sakthivel, dkk.2015. Dye Sensitized Solar Cell Properties and Fabrication Using Lawsonia inermis.India:University Grants Commission (UGC). Journal of chemistry and chemical sciences, vol 5 (2), 85-92. ISSN 2229-760X.
Shadily, Hassan. Ensiklopedi Indonesia. Ichtiar Baru-Van Hoevedan Elsevier Publishing Projects. Jakarta, 1984. Hal. 2498 dalam Wikipedia (Sumber: https://id.wikipedia.org/wiki/Pacar_kuku). (Diakses 4 Januari 2016).
Smestad, G.P, danGratzel, M. 1998. Demonstrating Electron Transfer and Nanotechnology: Anature Dye Sensitized Nanocrystalline Energy Converter. J. Chem. Educ. Vol. 75 No. 6. 752-756.
Zamrani,dkk. 2013. Pembuatan Dan Karakterisasi Prototipe Dye Sensitized Solar Cell(DSSC) Menggunakan Ekstraksi Kulit Buah Manggis Sebagai Dye Sensitizer Dengan Metode Doctor Balde.Surabaya: Institut Teknologi Sepuluh November. Jurnal sains dan seni POMITS Vol. 1, No. 2.
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