We report a systematic photometric study of LCD based on quantum dot (QD) backlight, and find the optimal emission spectrum combination in terms of system efficiency and wide color gamut. A QD-based LCD has potential to achieve 120 % AdobeRGB color gamut in CIE 1931 and 140 % in CIE 1976 color space, while keeping the same energy efficiency as conventional backlights. Moreover, we present a transmissive color display based on voltage-stretchable liquid crystal droplet and quantum dot backlight. This polarizer-free display exhibits highly saturated colors, wide viewing angle and reasonably good contrast ratio. QD backlight allows LCD to display original colors with high fidelity, which makes LCD more competitive to organic LED. The prime tim...
We analyze how to realize Rec. 2020 wide color gamut with quantum dots. For photoluminescence, our s...
We propose to add a functional reflective polarizer (FRP) in the backlight unit to suppress the cros...
Abstract: We analyze how to realize Rec. 2020 wide color gamut with quantum dots. For photoluminesce...
We report a systematic photometric study of LCD based on quantum dot (QD) backlight, and find the op...
We review recent advances in quantum dot (QD)- enhanced liquid crystal displays (LCDs), including ma...
Quantum dots (QDs)-based backlight greatly enhances the color performance for liquid crystal display...
We optimized the emission spectrum of a quantum dot (QD) backlight and achieved ∼140% color gamut in...
Quantum dots (QDs)-based backlight greatly enhances the color performance for liquid crystal display...
We analyze the color performance and system efficiency of three commonly employed liquid crystal dis...
For public displays, wide viewing angle and good sunlight readability are the key requirements. To a...
Liquid crystal display (LCD) has become ubiquitous and indispensable in our daily life. Recently, it...
Quantum dots (QDs) backlight brings several advantages to LCDs, including wider color gamut, higher ...
Two types of dielectrophoretic liquid displays with patterned quantum dots (QDs) array for enhancing...
Abstract—Two types of dielectrophoretic liquid displays with patterned quantum dots (QDs) array for ...
In this study, we analyze how a backlight\u27s peak wavelength, full-width at half-maximum (FWHM), a...
We analyze how to realize Rec. 2020 wide color gamut with quantum dots. For photoluminescence, our s...
We propose to add a functional reflective polarizer (FRP) in the backlight unit to suppress the cros...
Abstract: We analyze how to realize Rec. 2020 wide color gamut with quantum dots. For photoluminesce...
We report a systematic photometric study of LCD based on quantum dot (QD) backlight, and find the op...
We review recent advances in quantum dot (QD)- enhanced liquid crystal displays (LCDs), including ma...
Quantum dots (QDs)-based backlight greatly enhances the color performance for liquid crystal display...
We optimized the emission spectrum of a quantum dot (QD) backlight and achieved ∼140% color gamut in...
Quantum dots (QDs)-based backlight greatly enhances the color performance for liquid crystal display...
We analyze the color performance and system efficiency of three commonly employed liquid crystal dis...
For public displays, wide viewing angle and good sunlight readability are the key requirements. To a...
Liquid crystal display (LCD) has become ubiquitous and indispensable in our daily life. Recently, it...
Quantum dots (QDs) backlight brings several advantages to LCDs, including wider color gamut, higher ...
Two types of dielectrophoretic liquid displays with patterned quantum dots (QDs) array for enhancing...
Abstract—Two types of dielectrophoretic liquid displays with patterned quantum dots (QDs) array for ...
In this study, we analyze how a backlight\u27s peak wavelength, full-width at half-maximum (FWHM), a...
We analyze how to realize Rec. 2020 wide color gamut with quantum dots. For photoluminescence, our s...
We propose to add a functional reflective polarizer (FRP) in the backlight unit to suppress the cros...
Abstract: We analyze how to realize Rec. 2020 wide color gamut with quantum dots. For photoluminesce...