Photoluminescence and electroluminescence properties of aligned CsPbBr3 nanowire films prepared by off-center spin-coating

Wang, Xiaolei; Wei, Yaping; Xu, Yinyan; Wang, Qian; Lu, Hongbo; Qiu, Longzhen; Zhu, Jun

doi:10.1016/j.synthmet.2020.116481

Synthetic Metals

2020

DOI: 10.1016/j.synthmet.2020.116481

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Photoluminescence and electroluminescence properties of aligned CsPbBr3 nanowire films prepared by off-center spin-coating

Xiaolei Wang

Yaping Wei

Yinyan Xu

et al.

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Cited by 6 publications

(2 citation statements)

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“…We added two polarizers in an RF-6000 fluorescence spectrophotometer to achieve polarization detection. The first one with a fixed polarization (P1) was placed in the incident light path to obtain polarized light . The second one with tunable polarization (P2) was placed in the collection signal light path, and the spectrophotometer read out their polarization-dependent PL spectra.…”

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confidence: 99%

“…The first one with a fixed polarization (P1) was placed in the incident light path to obtain polarized light. 52 The second one with tunable polarization (P2) was placed in the collection signal light path, and the spectrophotometer read out their polarization-dependent PL spectra. It should be noted that the polarization response can be quantitatively described by the polarization degree (ρ), and ρ was calculated by the equation 10,18,53 where I max and I min are the maximum and minimum luminescence intensities, respectively.…”

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Ligand-Assisted Breaking Crystal Symmetry to Achieve Stable γ-CsPbI₃ Nanorods with Strong Polarization Response

et al. 2023

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Generally, the properties of CsPbX3 (X = Cl, Br, I) are closely related to their morphology, size, composition and phase. Black phase (α, β, or γ) CsPbI3 easily transforms to yellow phase (δ) CsPbI3 accompanied by optical performance decay at room temperature. A temperature-dependent phase transition is a routine process for bulk CsPbI3, whereas there is a lack of an effective method to control the phase of CsPbI3 nanocrystals. It is still interesting and challenging to control the morphology and phase transition of black phase CsPbI3. Herein, we proposed a ligand-assisted strategy of breaking crystal symmetry via a short Pb–F bond to simultaneously achieve a phase transition and an nisotropic morphology. High-quality γ-CsPbI3 nanorods (NRs) could be obtained due to F– preferential adsorption on the γ-CsPbI3 (220) crystal plane to inhibit its growth and allow preferential growth orientation perpendicular to the γ-CsPbI3 (202) crystal plane. Benefiting from Pb–F bond passivation and the hydrophobic phenyl group of ligands, γ-CsPbI3 NRs exhibited good water resistance and crystal phase stability. Furthermore, a high-quality γ-CsPbI3 NR film was assembled with a strong emission anisotropy polarization degree of up to 0.63 and the demo experiment of polarization imaging confirmed that the γ-CsPbI3 NR film could meet the needs of practical applications.

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Ligand-Assisted Breaking Crystal Symmetry to Achieve Stable γ-CsPbI₃ Nanorods with Strong Polarization Response

et al. 2023

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Semiconductor nanomaterial-based polarized light emission: From materials to light emitting diodes

Fang

Zhang

et al. 2023

Sci. China Mater.

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The overall optical efficiency of backlight-based liquid crystal displays (LCDs) is less than 5% due to the loss of backlight source by polarizers, color filter, liquid crystal layer and so on. Self-emissive light emitting diodes (LEDs) have been undergoing huge development due to their substantial market potentials to meet the demand of future display. More importantly, the polarized LEDs could enhance the energy utilization efficiency by avoiding light loss caused by polarizers. Therefore, it is desirable to look for effective methods to assemble high-quality anisotropic nanomaterial films so as to fabricate polarized LEDs with high degree of polarization and external quantum efficiency. Here, the photoelectrical properties of some semiconductor nanomaterials and their potential applications for polarized LEDs are introduced. The research progress in the field of polarized light emission from materials to films and then to LEDs is reviewed. Mechanisms of polarized emission, and different assembly strategies for polarized light emitting films and LEDs are also summarized and compared. Finally, several current challenges are discussed, and perspectives on future potential commercial application of polarized LEDs are offered. We hope this review will provide a valuable summary on current status and stimulate some new insightful ideas for future development of polarized LEDs.

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Structural, Optoelectronic and Electrochemical behavior of the mechanochemically synthesized CsPb1-xNaxBr3 (x=0 to 0.15)

Kayalvizhi

Sathya

Perumal

et al. 2023

Journal of Solid State Chemistry

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Photoluminescence and electroluminescence properties of aligned CsPbBr3 nanowire films prepared by off-center spin-coating

Cited by 6 publications

References 29 publications

Ligand-Assisted Breaking Crystal Symmetry to Achieve Stable γ-CsPbI₃ Nanorods with Strong Polarization Response

Ligand-Assisted Breaking Crystal Symmetry to Achieve Stable γ-CsPbI₃ Nanorods with Strong Polarization Response

Semiconductor nanomaterial-based polarized light emission: From materials to light emitting diodes

Structural, Optoelectronic and Electrochemical behavior of the mechanochemically synthesized CsPb1-xNaxBr3 (x=0 to 0.15)

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Photoluminescence and electroluminescence properties of aligned CsPbBr3 nanowire films prepared by off-center spin-coating

Cited by 6 publications

References 29 publications

Ligand-Assisted Breaking Crystal Symmetry to Achieve Stable γ-CsPbI3 Nanorods with Strong Polarization Response

Ligand-Assisted Breaking Crystal Symmetry to Achieve Stable γ-CsPbI3 Nanorods with Strong Polarization Response

Semiconductor nanomaterial-based polarized light emission: From materials to light emitting diodes

Structural, Optoelectronic and Electrochemical behavior of the mechanochemically synthesized CsPb1-xNaxBr3 (x=0 to 0.15)

Contact Info

Product

Resources

About

Ligand-Assisted Breaking Crystal Symmetry to Achieve Stable γ-CsPbI₃ Nanorods with Strong Polarization Response

Ligand-Assisted Breaking Crystal Symmetry to Achieve Stable γ-CsPbI₃ Nanorods with Strong Polarization Response