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W2034144427 abstract "This paper reports that structural imperfection in an organic thin film modulates the electronic structure to result in a serious band bending and change in the energy-level alignment (ELA) at the organic-conductor interface. Ultraviolet photoelectron spectroscopy (UPS) and metastable atom electron spectroscopy (MAES) were adopted to investigate thickness dependences of the electronic structure of polar phthalocyanine (chlorogallium phthalocyanine) thin films grown on graphite with respect to the film structure. We observed a large band-bending--like shift of occupied molecular-orbital bands toward the Fermi level and a continuous increase in the vacuum level for the as-grown film, whereas these phenomena were considerably suppressed by annealing the film. Both the as-grown and annealed films were characterized as essentially the same stacked bilayer film structure; however, high-resolution UPS and MAES measurements evidenced that there are structural defects in the as-grown film but not clearly in the annealed film, indicating that the defects are the origin of the modulation of the ELA and the band bending. Controlling the structural imperfections is a key issue for the desired ELA in organic devices." @default.
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W2034144427 date "2011-05-09" @default.
W2034144427 modified "2023-10-14" @default.
W2034144427 title "Impact of structural imperfections on the energy-level alignment in organic films" @default.
W2034144427 cites W1966241350 @default.
W2034144427 cites W1966822875 @default.
W2034144427 cites W1967441639 @default.
W2034144427 cites W1969749043 @default.
W2034144427 cites W1969849763 @default.
W2034144427 cites W1973648930 @default.
W2034144427 cites W1981369074 @default.
W2034144427 cites W1982109712 @default.
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W2034144427 cites W1987387870 @default.
W2034144427 cites W1994086496 @default.
W2034144427 cites W1994191134 @default.
W2034144427 cites W2000590935 @default.
W2034144427 cites W2003583729 @default.
W2034144427 cites W2005800061 @default.
W2034144427 cites W2015010440 @default.
W2034144427 cites W2016689636 @default.
W2034144427 cites W2018808971 @default.
W2034144427 cites W2020143153 @default.
W2034144427 cites W2022348261 @default.
W2034144427 cites W2022592626 @default.
W2034144427 cites W2028250890 @default.
W2034144427 cites W2029052265 @default.
W2034144427 cites W2033139038 @default.
W2034144427 cites W2036809984 @default.
W2034144427 cites W2037691864 @default.
W2034144427 cites W2039494114 @default.
W2034144427 cites W2040593689 @default.
W2034144427 cites W2044481509 @default.
W2034144427 cites W2044623159 @default.
W2034144427 cites W2044671846 @default.
W2034144427 cites W2045162456 @default.
W2034144427 cites W2047591209 @default.
W2034144427 cites W2048577864 @default.
W2034144427 cites W2049910508 @default.
W2034144427 cites W2051662192 @default.
W2034144427 cites W2056989459 @default.
W2034144427 cites W2060634282 @default.
W2034144427 cites W2067772603 @default.
W2034144427 cites W2068451792 @default.
W2034144427 cites W2069395957 @default.
W2034144427 cites W2072852688 @default.
W2034144427 cites W2077123150 @default.
W2034144427 cites W2077188122 @default.
W2034144427 cites W2079473028 @default.
W2034144427 cites W2081809275 @default.
W2034144427 cites W2082865395 @default.
W2034144427 cites W2083880941 @default.
W2034144427 cites W2086002928 @default.
W2034144427 cites W2088474050 @default.
W2034144427 cites W2093934458 @default.
W2034144427 cites W2094899075 @default.
W2034144427 cites W2094979742 @default.
W2034144427 cites W2112362639 @default.
W2034144427 cites W2118285761 @default.
W2034144427 cites W2330032659 @default.
W2034144427 cites W2333594780 @default.
W2034144427 cites W2335769532 @default.
W2034144427 doi "https://doi.org/10.1103/physrevb.83.195310" @default.
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