Enhancing the Efficiency of Color Conversion Micro-LED Display with a Patterned Cholesteric Liquid Crystal Polymer Film

Hsiang, En‐Lin; Li, Yannanqi; He, Ziqian; Zhan, Tao; Zhang, Caicai; Lan, Yi‐Fen; Dong, Yajie; Wu, Shin‐Tson

doi:10.3390/nano10122430

Cited by 29 publications

(23 citation statements)

References 34 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…The absorption coefficient, PLQY, thickness, and green−red ratio of the film all affect the color conversion of LCD devices. 48,49 Moreover, the effects of the Cs 3 Mn 0.6 Zn 0.4 Br 5 @K 2 SiF 6 :Mn 4+ @PS thickness and green−red ratio on the performance of LCD devices were discussed in detail. In this way, a series of films were prepared with different ratios and thicknesses, and the content ratios of Cs 3 Mn 0.6 Zn 0.4 Br 5 and K 2 SiF 6 :Mn 4+ were 1.00:0.005, 1.00:0.010, and 1.00:0.015, respectively.…”

Section: ■ Results and Discussionmentioning

confidence: 99%

Environmental-Friendly Cs₃Mn_xZn_(1–x)Br₅@PS Films Used for Wide Color Gamut Backlight Displays

Chen

et al. 2022

ACS Sustainable Chem. Eng.

View full text Add to dashboard Cite

In recent years, all-inorganic metal lead halide cesium perovskites (CsPbX 3 , X = Cl, Br, and I) have shown excellent luminescence performance in the field of wide color gamut backlight displays. However, Pb 2+ in CsPbX 3 easily leaks because of the unstable structure of CsPbX 3 , which seriously threatens human health. However, Mn-based metal halides (MHs) have unique environmentally friendly characteristics. In this work, Zn 2+ -doped Cs 3 MnBr 5 MHs were successfully prepared, which exhibited highly efficient green emissions at 520−522 nm. Moreover, Cs 3 Mn x Zn (1−x) Br 5 shows excellent stability at room temperature (25 °C) compared with Cs 3 MnBr 5 . More excitingly, when Cs 3 Mn x Zn (1−x) Br 5 was encapsulated in a polystyrene (PS) polymer, Cs 3 Mn x Zn (1−x) Br 5 @PS showed better water, acid, daylight, and blue light stabilities. In addition, the backlight display device was designed based on different green−red ratios and thicknesses of Cs 3 Mn x Zn (1−x) Br 5 @K 2 SiF 6 :Mn 4+ @PS light conversion films, and the color gamut was over 109% of the NTSC 1953 standard, which is better than that of the reported WLED devices based on Mn-based MHs thus far. This work undoubtedly shows that Mn-based MHs have great application potential in wide color gamut backlight displays and provide a practicable route to fabricate nontoxic, low-cost, and high-performance liquid crystal displays. KEYWORDS: Cs 3 Mn x Zn (1−x) Br 5 , PS, stability, color gamut, backlight display

show abstract

Section: ■ Results and Discussionmentioning

confidence: 99%

Environmental-Friendly Cs₃Mn_xZn_(1–x)Br₅@PS Films Used for Wide Color Gamut Backlight Displays

Chen

et al. 2022

ACS Sustainable Chem. Eng.

View full text Add to dashboard Cite

show abstract

“…In the color-by-blue mode-based display device where QD emitters are placed in the front panel, QDs can be undesirably excited upon exposure to ambient lights [ 31 , 32 ]. This inevitably deteriorates the color purity and contrast ratio of the display device.…”

Section: Resultsmentioning

confidence: 99%

Effective Blue Light-Absorbing AuAg Nanoparticles in InP Quantum Dots-Based Color Conversion

Yeo

Yoon

et al. 2022

Materials

View full text Add to dashboard Cite

In typical color-by-blue mode-based quantum dot (QD) display devices, only part of the blue excitation light is absorbed by QD emitters, thus it is accompanied by the leakage of blue light through the devices. To address this issue, we offer, for the first time, the applicability of AuAg alloy nanoparticles (NPs) as effective blue light absorbers in InP QD-based color-by-blue platforms. For this, high-quality fluorescent green and red InP QDs with a double shell scheme of ZnSe/ZnS were synthesized and embedded in a transparent polymer film. Separately, a series of Au/Ag ratio-varied AuAg NPs with tunable plasmonic absorption peaks were synthesized. Among them, AuAg NPs possessing the most appropriate absorption peak with respect to spectral overlap with blue emission are chosen for the subsequent preparation of AuAg NP polymeric films with varied NP concentrations. A stack of AuAg NP polymeric film on top of InP QD film is then placed remotely on a blue light-emitting diode, successfully resulting in systematically progressive suppression of blue light leakage with increasing AuAg NP concentration. Furthermore, the beneficial function of the AuAg NP polymeric overlayer in mitigating undesirable QD excitation upon exposure to ambient lights was further examined.

show abstract

“…The first approach is the additive optical film. As shown in Figure a, to improve the excitation light absorption, a high-pass filter recycles the blue light leaked from the QDCC back to the film to excite the QD material, and the absorption filters on top of the QDCC prevents blue light leakage and eliminates ambient light excitation. , The band-pass filter can be a distributed Bragg reflector (DBR) or a stacked cholesteric liquid crystal (CLC) film with opposite chirality.…”

Section: Emerging Quantum Dot Color-conversion Technology Beyond Quan...mentioning

confidence: 99%

Luminescent Nanomaterials for Energy-Efficient Display and Healthcare

et al. 2022

Self Cite

View full text Add to dashboard Cite

Luminescent quantum dots (QDs) and perovskite nanocrystals (PNCs) are promising, efficient energy converters for advanced displays and light sources. Their widespread applications in the photoluminescence (PL)-based displays have been achieved through color enhancement films and patterned color-converters. Meanwhile, electroluminescence (EL) devices based on QDs and PNCs are still under active development, but emerging applications in the healthcare domains could accelerate their adoption. Herein, we first analyze the QD color-conversion displays guided by state-of-the-art research and then summarize the evolution of in situ strategies to fabricate efficient and stable PNC–polymer composites. Subsequently, we introduce the application of flexible QD light-emitting devices for healthcare as a potential early target market. Remaining challenges and future perspectives of QDs and PNCs as light-converters for PL displays, and of QDs for EL applications in healthcare, are analyzed.

show abstract

Enhancing the Efficiency of Color Conversion Micro-LED Display with a Patterned Cholesteric Liquid Crystal Polymer Film

Cited by 29 publications

References 34 publications

Environmental-Friendly Cs₃Mn_xZn_(1–x)Br₅@PS Films Used for Wide Color Gamut Backlight Displays

Environmental-Friendly Cs₃Mn_xZn_(1–x)Br₅@PS Films Used for Wide Color Gamut Backlight Displays

Effective Blue Light-Absorbing AuAg Nanoparticles in InP Quantum Dots-Based Color Conversion

Luminescent Nanomaterials for Energy-Efficient Display and Healthcare

Contact Info

Product

Resources

About

Enhancing the Efficiency of Color Conversion Micro-LED Display with a Patterned Cholesteric Liquid Crystal Polymer Film

Cited by 29 publications

References 34 publications

Environmental-Friendly Cs3MnxZn(1–x)Br5@PS Films Used for Wide Color Gamut Backlight Displays

Environmental-Friendly Cs3MnxZn(1–x)Br5@PS Films Used for Wide Color Gamut Backlight Displays

Effective Blue Light-Absorbing AuAg Nanoparticles in InP Quantum Dots-Based Color Conversion

Luminescent Nanomaterials for Energy-Efficient Display and Healthcare

Contact Info

Product

Resources

About

Environmental-Friendly Cs₃Mn_xZn_(1–x)Br₅@PS Films Used for Wide Color Gamut Backlight Displays

Environmental-Friendly Cs₃Mn_xZn_(1–x)Br₅@PS Films Used for Wide Color Gamut Backlight Displays