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conferenceseries
.com
Volume 7, Issue 6 (Suppl)
J Nanomed Nanotechnol
ISSN: 2157-7439 JNMNT, an open access journal
Nanotek 2016
December 05-07, 2016
December 05-07, 2016 Phoenix, USA
13
th
International Conference on
Nanotek & Expo
Yuki Matsunaga et al., J Nanomed Nanotechnol 2016, 7:6 (Suppl)
http://dx.doi.org/10.4172/2157-7439.C1.047Development of paint-type dye-sensitized solar cell using carbon-nanotube- paint and evaluation of its
painted electrodes for efficient power generation
Yuki Matsunaga, Takahide Oya
Yokohama National University, Japan
W
e propose “paint-type” Dye-Sensitized Solar Cells (DSCs) using Carbon-Nanotube (CNT) paints. Recently, solar power
generation has been focused because of current environmental problems. The DSC that is one of solar cells consists of
semiconducting and metallic electrodes facing each other. The semiconducting electrode is attached dye. When an electrolyte
is placed between two electrodes and the cell is irradiated by light, it starts power generation. In this study, we develop and use
semiconducting- and metallic-CNT paints for electrodes of our DSC. The semiconducting-paint contains the dye. Therefore, we can
obtain the paint-type DSCs by only painting any objects. As a first study, we used ordinary papers as substrates to paint the CNT
paints for two electrodes and found our DSC had power generating ability. However, its efficiency of power generation was not so
high. We are now studying to improve the efficiency by controlling parameters of paints, electrolytes, and kinds of dyes. We here focus
on conductivity of the paint on substrates because it influences the efficiency directly. We prepared some painted electrodes that had
different conductivity and evaluated their properties. As results, we found that controlling conductivity must be needed to obtain high
efficiency of power generation, i.e., we must control the concentrations of the CNT and other contents in the paints. In near future,
we will study and find suitable parameters of electrolytes and the dyes. Finally, we will develop the high efficient paint-type DSC, we
believe.
Biography
Yuki Matsunaga was received the B.E. degree from Yokohama National University, Kanagawa, Japan in 2014. He is now 2nd year of a master course student of
Graduate School of Engineering, Yokohama National University. His current research interests include development of unique applications using carbon nanotubes
(CNTs), i.e., of paint-type DSC using CNT-paints.
matsunaga-yuki-wc@ynu.jp