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Herein, a novel electron-deficient conjugated water/alcohol-soluble polyelectrolyte (WSPE) named
PFSOPyCl-E
, consisting of dibenzothiophene-
S
,
S
-dioxide, bispyridinium salts and fluorene with ethylene oxide side chains, was presented. Previously we have synthesized another WSPE (
PFSOPyCl
) composed of the same backbone as that of
PFSOPyCl-E
but with octyl side chains.
PFSOPyCl
and
PFSOPyCl-E
were applied as cathode buffer materials (CBMs) to inverted polymer solar cells (PSCs) of poly[4,8-bis(2-ethylhexyloxyl)benzo[1,2-
b
:4,5-
b
′]dithiophene-2,6-diyl-
alt
-ethylhexyl-3-fluorothithieno[3,4-
b
]thiophene-2-carboxylate-4,6-diyl] (PTB7):[6,6]-phenyl-C
71
butyric acid methyl ester (PC
71
BM) systems, and simultaneous enhancements in open-circuit voltage (
V
oc
), short-circuit current density (
J
sc
) and fill factor (FF) could be achieved when inserting these cathode buffer layers (CBLs). It was found that these CBLs could build directed dipoles at the indium tin oxide (ITO)/active layer interfaces, leading to the reductions in the ITO work function (WF) and improvements in
V
oc
for the modified devices. The
J
sc
and FFs of PSCs were increased by several mechanisms. Firstly, the energy level alignments between the reduced ITO WFs (4.30-4.32 eV), deep LUMO energy levels (
E
LUMO
) of these CBLs (4.04-4.10 eV) and
E
LUMO
of PC
71
BM (∼3.90 eV) could generate good ohmic contacts, facilitating electron extractions and transportations. Secondly, these CBLs were able to n-dope PC
71
BM at the interfaces, inducing efficient electron-transporting pathways in the devices. Moreover, these polar polymeric CBLs could improve the compatibilities between ITO and the active layers, thus decreasing the interfacial resistances. It is worth noting that
PFSOPyCl-E
showed better cathode-modifying performance than
PFSOPyCl
, probably since
PFSOPyCl-E
with ethylene oxide side chains of high polarity and flexibility possessed better wettability with ITO and smoother films than
PFSOPyCl
. Hence, the devices modified by
PFSOPyCl-E
displayed lower contact resistances and higher FFs and
J
sc
than the
PFSOPyCl
-modified ones. Therefore, this class of electron-deficient conjugated WSPEs are promising CBMs for high-performance PSCs.
The successful applications of
PFSOPyCl
and its newly synthesized derivative
PFSOPyCl-E
cathode modifiers in inverted polymer solar cells are presented.
Sprache
Englisch
Identifikatoren
ISSN: 1759-9954
eISSN: 1759-9962
DOI: 10.1039/d0py00416b
Titel-ID: cdi_rsc_primary_d0py00416b
Format
–
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