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Fine Control of Perovskite Crystallization and Reducing Luminescence Quenching Using Self‐Doped Polyaniline Hole Injection Layer for Efficient Perovskite Light‐Emitting Diodes

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Organic–inorganic hybrid perovskites (OHPs) are promising emitters for light-emitting diodes (LEDs) due to the high color purity, low cost, and simple synthesis. However, the electroluminescent efficiency of polycrystalline OHP LEDs… Click to show full abstract

Organic–inorganic hybrid perovskites (OHPs) are promising emitters for light-emitting diodes (LEDs) due to the high color purity, low cost, and simple synthesis. However, the electroluminescent efficiency of polycrystalline OHP LEDs (PeLEDs) is often limited by poor surface morphology, small exciton binding energy, and long exciton diffusion length of large-grain OHP films caused by uncontrolled crystallization. Here, crystallization of methylammonium lead bromide (MAPbBr3) is finely controlled by using a polar solvent-soluble self-doped conducting polymer, poly(styrenesulfonate)-grafted polyaniline (PSS-g-PANI), as a hole injection layer (HIL) to induce granular structure, which makes charge carriers spatially confined more effectively than columnar structure induced by the conventional poly(3,4-ethylenedio ythiphene):polystyrenesulfonate (PEDOT:PSS). Moreover, lower acidity of PSS-g-PANI than PEDOT:PSS reduces indium tin oxide (ITO) etching, which releases metallic In species that cause exciton quenching. Finally, doubled device efficiency of 14.3 cd A-1 is achieved for PSS-g-PANI-based polycrystalline MAPbBr3 PeLEDs compared to that for PEDOT:PSS-based PeLEDs (7.07 cd A-1). Furthermore, PSS-g-PANI demonstrates high efficiency of 37.6 cd A-1 in formamidinium lead bromide nanoparticle LEDs. The results provide an avenue to both control the crystallization kinetics and reduce the migration of In released from ITO by forming OIP films favorable for more radiative luminescence using the polar solvent-soluble and low-acidity polymeric HIL.

Keywords: pss pani; crystallization; hole injection; emitting diodes; light emitting; self doped

Journal Title: Advanced Functional Materials
Year Published: 2018

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