The thickness and firing duration dependence of titanium dioxide (TiO2) nanoparticle against to the output power of dye-sensitized solar cell (DSSC)

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Muslichin, Amiril Mu’minin, Adabina Husna Yuriz Fridasavema, Muhammad Aulia Rahman Sembiring, Cindy Mutiara Septani, Eka Maulana

2015 International Journal of Applied Engineering Research Vol. 10 Issue 18 Article Cited by 8 Quartile

Abstract

In this research, a doctor blading deposition method for layering TiO2 has been used to fabricate Dye-sensitized solar cell (DSSC). The conductive glass material or TCO (Transparent Conductive Oxide) was used for charge current. According to the doctor blade method, the thickness of TiO2 was arranged by controlling mask layer, Nanoparticle of TiO2 organic or natural dyes, electrolyte and electrode were arranged and combined with multulayer structure as the donor-acceptor layer. The test of DSSC using LED lamp 7 watt resulting VOC 321 mV and ISC 13.8 μA while the maximum power reaches 4,429 x 10-9 W. The test of cell firing duration of 75 minutes resulting VOC 388 mV and ISC 47.9 μA while the maximum power reached. © Research India Publications.

Affiliations

Department of Electrical Engineering, Brawijaya University, Indonesia; Department of Chemical Engineering, Brawijaya University, Indonesia