Cd-based QLED Quantum Dots 465 nm

Cd-based QLED Quantum Dots, precision-tuned to a 465 nm pure-blue emission, deliver industry-leading electroluminescent performance for high-end display architectures. These nanocrystals are engineered with an advanced core-shell passivation layer that minimizes surface trapping and maximizes radiative recombination, ensuring an ultra-narrow emission profile and superior quantum yield. When integrated with our specialized ZnMgO nanoparticle solution, these dots facilitate an optimized Electron Transport Layer (ETL) interface that effectively balances charge carrier dynamics and reduces the turn-on voltage of the device. The high transparency and excellent electron-injecting properties of the ZnMgO layer, combined with the robust photostability of our 465 nm QDs, result in exceptionally stable, bright, and long-lasting blue pixels.

Applications

• Ultra-Definition (UHD) & 8K Displays: Serves as the primary blue-light source for premium QLED panels, ensuring full coverage of the DCI-P3 and BT.2020 color gamuts for professional-grade visual experiences.
• High-Luminance Mobile Screens: Applied in smartphone and tablet displays to achieve vibrant blue hues while maintaining lower power consumption through high-efficiency electron-to-photon conversion.
• Gaming & Professional Monitors: Utilized in high-refresh-rate monitors to provide the sharp color contrast and rapid response times required for competitive gaming and professional video production.
• Next-Generation VR/AR Optics: Integrated into micro-QLED arrays for virtual and augmented reality headsets, where high pixel density and deep-blue saturation are essential for immersion.
• Solid-State Blue Light Sources: Employed in the development of specialized medical and industrial lighting solutions that require stable, high-intensity monochromatic blue emission.
• Flexible Optoelectronics: Ideal for solution-processed flexible and foldable screens due to its excellent dispersibility and compatibility with low-temperature manufacturing processes.