posted on 2021-08-12, 17:39authored byAditya Mishra, Masoud Alahbakhshi, Qing Gu, Anvar A. Zakhidov, Jason D. Slinker
Blue electroluminescence is fundamental
for many optoelectronic
and lighting applications, and mixed halide perovskite light-emitting
devices are under development to meet the technological demands. However,
the stability of blue perovskite devices is lacking, primarily because
of the halide segregation during operation that degrades the underlying
perovskite structure. Saturated and stable blue emission was accomplished
with a rational materials blend of a mixed halide perovskite, polymer
electrolytes, and a lithium salt that selectively suppressed perovskite
ion motion while facilitating the transport of the salt additive.
This approach produced blue electroluminescence peaked at 464 nm that
surpassed standard benchmarks with a luminance maximum of 540 cd/m2 and stable operation under constant current driving. The
role of the polymer and salt additives was explored by photoluminescence,
electroluminescence, scanning electron microscopy, and atomic force
microscopy studies. Concerning the device, the salt ions improve electrical
double layer formation and selectively move in place of the perovskite
ions, while the polymers improve the uniformity and smoothness of
the films. Fundamentally, each component is shown to contribute to
the suppression of halide segregation for highly stable electroluminescence.