"Fabrication and Characterization of Phthalocyanine/C60 Solar Cells with Inverted Structure"
written by Kazumi Yoshida, Takeo Oku, Atsushi Suzuki, Tsuyoshi Akiyama, Yasuhiro Yamasaki,
published by Advances in Chemical Engineering and Science, Vol.2 No.4, 2012
has been cited by the following article(s):
  • Google Scholar
  • CrossRef
[1] Low-Cost CuIn1− xGaxSe2 Ultra-Thin Hole-Transporting Material Layer for Perovskite/CIGSe Heterojunction Solar Cells
2019
[2] Flexible organic heterostructures obtained by MAPLE
Applied Physics A, 2018
[3] Enhanced Photocatalytic Performance of Porphyrin/Phthalocyanine and Bis (4‐pyridyl) pyrrolidinofullerene modified Titania
ChemistrySelect, 2017
[4] Tandem Heterojunction Photoelectric Cell Based on Organic-Inorganic Hybrid of AlPc-H2Pc and n-Si
2017
[5] Enhanced Photocatalytic Performance of Porphyrin/Phthalocyanine and Bis(4‐pyridyl)pyrrolidinofullerene modified Titania
ChemistrySelect, 2017
[6] Bulk Heterojunction Tandem Photoelectric Cell Based on p-Si and Phthalocyanine
2017
[7] Heterostructures based on small molecules organic compounds
2015
[8] The position and frequency of fluorine atoms changes the electron donor/acceptor properties of fluorophenoxy silicon phthalocyanines within organic photovoltaic …
2015
[9] Layer-by-layer assembled highly absorbing hundred-layer films containing a phthalocyanine dye: Fabrication and photosensibilization by thermal treatment
Thin Solid Films, 2015
[10] Fabrication and Characterization of Perovskite-based Solar Cells using Lead Phthalocyanine as Hole Transport Layer
International Conference on Sustainable Energy & Environmental Sciences (SEES). Proceedings, 2015
[11] Fabrication and characterization of CuPc and PCBM based organic solar cell with metal interlayer
World Journal of Engineering, 2015
[12] The position and frequency of fluorine atoms changes the electron donor/acceptor properties of fluorophenoxy silicon phthalocyanines within organic photovoltaic devices
Journal of Materials Chemistry A, 2015
[13] Effects of hole-transporting layers of perovskite-based solar cells
Japanese Journal of Applied Physics, 2015
[14] The position and frequency of fluorine atoms changes the electron donor/acceptor properties of fluorophenoxy silicon phthalocyanines within organic photovoltaic …
Journal of Materials Chemistry A, 2015
[15] Fabrication and Characterization of Phthalocyanine-Based Organic Solar Cells
Materials Sciences and Applications, 2014
[16] Fabrication and characterization of organic solar cells using titanylphthalocyanine as hole transport layer
physica status solidi (a), 2014
[17] Fabrication and characterization of PCBM: P3HT: silicon phthalocyanine bulk heterojunction solar cells with inverted structures
Japanese Journal of Applied Physics, 2014
[18] Fabrication and characterization of PCBM: P3HT bulk heterojunction solar cells doped with silicon naphthalocyanine
physica status solidi (c), 2013
[19] Fabrication and Characterization of PCBM: P3HT Bulk Heterojunction Solar Cells Doped with Germanium Phthalocyanine or Germanium Naphthalocyanine
Materials Sciences and Applications, 2013