We employ the organic semiconductor 3,4,9,10-perylene-tetracarboxylic-dianhydride (PTCDA) as a nanometer thick window layer for p-InP/indium tin oxide (ITO) Schottky barrier diode solar cells. The power conversion efficiency is enhanced compared to ITO/InP cells lacking the PTCDA window layer, primarily due to neutralizing InP surface state charges via hole injection from the PTCDA. This leads to an increased ITO/p-InP Schottky barrier height, and hence to an increased open circuit voltage. The power conversion efficiency of the cells increases from 13.2±0.5% for the ITO/InP cell to 15.4±0.4% for the ITO/4 nm PTCDA/p-InP cell under 1 sun, AM1.5G simulated solar illumination. The PTCDA window layer is also shown to contribute to the photocurrent by light absorption followed by exciton dissociation at the organic/inorganic semiconductor interface.

1.
D. L.
Pulfrey
,
IEEE Trans. Electron Devices
25
,
1308
(
1978
).
2.
H. J.
Hovel
and
J. M.
Woodall
,
J. Electrochem. Soc.
120
,
1246
(
1973
).
3.
R. K.
Jain
and
G. A.
Landis
,
Appl. Phys. Lett.
59
,
2555
(
1991
).
4.
M. A.
Green
,
F.
King
, and
J.
Shewchun
,
Solid-State Electron.
17
,
551
(
1974
).
5.
M. A.
Green
,
A. W.
Blakers
, and
C. R.
Osterwald
,
J. Appl. Phys.
58
,
4402
(
1985
).
6.
E.
Yablonovitch
,
T.
Gmitters
,
R. M.
Swanson
, and
Y. H.
Kwark
,
Appl. Phys. Lett.
47
,
1211
(
1985
).
7.
M.
Taguchi
,
K.
Kawamoto
,
S.
Tsuge
,
T.
Baba
,
H.
Sakata
,
M.
Morizane
,
K.
Uchihashi
,
N.
Nakamura
,
S.
Kiyama
, and
O.
Oota
,
Prog. Photovoltaics
8
,
503
(
2000
).
8.
S. R.
Forrest
,
M. L.
Kaplan
, and
P. H.
Schimt
,
J. Appl. Phys.
55
,
1492
(
1984
).
9.
S. R.
Forrest
,
M. L.
Kaplan
, and
P. H.
Schimt
,
J. Appl. Phys.
56
,
543
(
1984
).
10.
V.
Gowrishankar
,
S. R.
Scully
,
M. D.
McGehee
,
Q.
Wang
, and
H. M.
Branz
,
Appl. Phys. Lett.
89
,
252102
(
2006
).
11.
S. R.
Forrest
,
Chem. Rev.
97
,
1793
(
1997
).
12.
T.
Chassé
,
C. -I.
Wu
,
I. G.
Hill
, and
A.
Kahn
,
J. Appl. Phys.
85
,
6589
(
1999
).
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