Tianma is showcasing its next generation of AM-OLED displays, designed to improve brightness, color reproduction, efficiency and form factor for smartphone applications. New Florescence Technology (NFT) AM-OLED - Tianma is showcasing its New Fluorescence Technology (NFT) on both single-layer and stacked-layer BT.2020-capable AM-OLED displays. NFT integrates Phosphor-Sensitized Fluorescence (PSF) and New Fluorescent Blue (NFB) material systems. PSF enables highly efficient multi-channel energy transfer via Forster mechanisms, generating narrow-spectrum, high-purity green emission with ultra-narrow FWHM.

NFB further improves exciton utilization in blue emission by suppressing non-radiative losses. Together, these material innovations provide a strong foundation for wide color gamut performance, long-term stability, and improved energy efficiency, enabling greater than 96% BT.2020 coverage and more than 99% DCI-P3 compatibility. Tianma implemented NFT in two modules variations: conventional single-layer design and Tianma's Stacked Layer OLED Device (SLOD) architecture differs from conventional tandem OLED designs by incorporating a low-voltage charge generation layer (CGL) and differentiated light-emitting units.

This structure enables improved carrier balance and transport efficiency, allowing a paired emissive configuration to produce higher luminous efficiency than traditional stacked approaches. Compared with conventional single-layer OLED devices, SLOD delivers increased brightness and luminance efficiency while reducing overall power demand, with peak brightness levels up to 7,000 nits, extended operational lifetime, and improved energy efficiency for high-performance mobile display applications. 6.78" Ultra Narrow Border AM-OLED - Narrow Border, Low Power - At the system and integration level, Tianma extends these material and device-level innovations through advanced backplane and drive technologies to address industrial design constraints and power optimization requirements.

An ultra-narrow-border LTPO AM-OLED display combines a symmetrical, edge-to-edge form factor with efficient variable-refresh operation. Using Hybrid VSR (Vertical Shift Register) and ADP (Advanced Drive Pixel) technologies on an LTPO backplane, the display achieves meaningful power savings while maintaining image quality across operating modes. Uniform 0.8 mm borders on all four sides enable a screen-to-body ratio of up to 98%, supporting compact device architectures and premium smartphone designs.