p-n interface stabilization of planar heterojunction organic photovoltaics by an ethyleneoxy side chain of methanofullerenes

[Display omitted] •Fullerene derivatives with ethyleneoxy side chains were prepared.•The fullerenes formed stable interface with copper phthalocyanine.•Energy conversion efficiency of the photovoltaic cell was improved. Methanofullerenes bearing both an ethyleneoxy side chain, −(CH2CH2O)n-, n=1 or 2...

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Bibliographic Details
Published in:Synthetic metals 2016-05, Vol.215, p.223-228
Main Authors: Takagi, Akuto, Mizutani, Tadashi, Moriwaki, Kazuyuki, Takao, Yuko, Matsumoto, Fukashi, Hida, Koichi, Iwai, Toshiyuki, Ito, Takatoshi, Mizuno, Takumi, Ohno, Toshinobu
Format: Article
Language:English
Subjects:
Buckminsterfullerene
Chains
Contact angle
COPPER PHTHALOCYANINE
Current density
DENSITY
ETHYLENE
Fullerene
Fullerenes
Heterojunctions
Interface
INTERFACES
ORGANIC COMPOUNDS
Organic photovoltaic cell
Photovoltaic cells
Solar cells
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Summary:[Display omitted] •Fullerene derivatives with ethyleneoxy side chains were prepared.•The fullerenes formed stable interface with copper phthalocyanine.•Energy conversion efficiency of the photovoltaic cell was improved. Methanofullerenes bearing both an ethyleneoxy side chain, −(CH2CH2O)n-, n=1 or 2, and a 5-ethyl-2-thienyl group were prepared. These methanofullerenes were much more polar than PCBM and C60, and solubility in chlorobenzene (23–24g/L) was comparable to that of PCBM. Planar heterojunction photovoltaic cells employing the methanofullerenes as an electron acceptor and copper phthalocyanine (CuPc) as an electron donor were fabricated. The short-circuit current density of the photovoltaic cell (4.61–4.66mA/cm2) was larger than that of the photovoltaic cell prepared from the standard fullerene acceptor, PCBM, (4.08mA/cm2), and consequently the power conversion efficiency was improved. Comparisons of contact angles of water and hexadecane on fullerene films indicated that the fullerenes with an ethyleneoxy side chain formed more stable interface with CuPc than PCBM. These results suggest that side chain engineering aiming at stable p-n interface is an attractive strategy for designing efficient organic photovoltaic cells.
ISSN:0379-6779
1879-3290
DOI:10.1016/j.synthmet.2016.03.005