F. Cacialli et al., EFFICIENT GREEN LIGHT-EMITTING-DIODES FROM A PHENYLATED DERIVATIVE OFPOLY(P-PHENYLENE-VINYLENE), Applied physics letters, 69(25), 1996, pp. 3794-3796
We have used polyvinylcarbazole, PVK, in combination with poly(p-pheny
lene vinylene), PPV and a green-emitting, soluble derivative, poly(4,4
'-diphenylene diphenylvinylene) or briefly PDPV, to fabricate triple-l
ayer light-emitting diodes PPV/PVK/PDPV/metal, with indium tin oxide a
s the anode. We report luminances in excess of 1300 cd/m(2) with Al ca
thodes, turn-on voltages of similar to 8 V in structures 300 nm thick,
and internal efficiencies in the range 0.4%-0.8% for Al and Ca cathod
es: at least ten times higher than for single-layer PDPV devices. Quan
tum efficiencies for Ca or Al electrodes are only a factor 1.5 differe
nt. The improvements over single-layer PDPV devices are considered to
be due to better hole injection by PPV and to the formation of a hole
barrier at the PPV/PVK interface, which forces a better balance of the
electron and hole currents. (C) 1996 American Institute of Physics.