Rationalizing Fabrication and Design Toward Highly Efficient and Stable Blue Light‐Emitting Electrochemical Cells Based on NHC Copper(I) Complexes |
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| Authors: | Michael D. Weber Elisa Fresta Margaux Elie Matthias E. Miehlich Jean‐Luc Renaud Karsten Meyer Sylvain Gaillard Rubén D. Costa |
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| Affiliation: | 1. Department of Chemistry and Pharmacy, Physical Chemistry I Friedrich‐Alexander‐University Erlangen‐Nürnberg (FAU), Erlangen, Germany;2. IMDEA Materials Institute, Getafe, Spain;3. Normandie Univ., LCMT, Caen, France;4. Department of Chemistry and Pharmacy, Inorganic Chemistry Friedrich‐Alexander‐University Erlangen‐Nürnberg (FAU), Erlangen, Germany |
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| Abstract: | Recently, the use of a new family of electroluminescent copper(I) complexes—i.e., the archetypal [Cu(IPr)(3‐Medpa)][PF6] complex; IPr: 1,3‐bis‐(2,6‐di‐iso‐propylphenyl)imidazole‐2‐ylidene; 3‐Medpa: 2,2′‐bis‐(3‐methylpyridyl)amine—has led to blue light‐emitting electrochemical cells (LECs) featuring luminances of 20 cd m?2, stabilities of 4 mJ, and efficiencies of 0.17 cd A?1. Herein, this study rationalizes how to enhance these figures‐of‐merit optimizing both device fabrication and design. On one hand, a comprehensive spectroscopic and electrochemical study reveals the degradation of this novel emitter in common solvents used for LEC fabrication, as well as the impact on the photoluminescence features of thin‐films. On the other hand, spectro‐electrochemical and electrochemical impedance spectroscopy assays suggest that the device performance is strongly limited by the irreversible formation of oxidized species that mainly act as carrier trappers and luminance quenchers. Based on all of the aforementioned, device optimization was realized using ionic additives and a hole transporter either as a host–guest or as a multilayered architecture approach to decouple hole/electron injection. The latter significantly enhances the LEC performance, reaching luminances of 160 cd m?2, stabilities of 32.7 mJ, and efficiencies of 1.2 cd A?1. Overall, this work highlights the need of optimizing both device fabrication and design toward highly efficient and stable LECs based on cationic copper(I) complexes. |
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| Keywords: | blue electroluminescence copper(I) complexes light‐emitting electrochemical cells multi‐layered device design redox stability |
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