I think this one describes it better. And also the hurdles
Active-matrix light-emitting diodes
See also: AMOLED, MicroLED, and LED display
AMQLED displays will use electroluminescent QD nanoparticles functioning as Quantum-dot-based LEDs (QD-LEDs or QLEDs) arranged in an active matrix array. Rather than requiring a separate LED backlight for illumination and TFT LCD to control the brightness of color primaries, these QLED displays would natively control the light emitted by individual color subpixels,[49] greatly reducing pixel response times by eliminating the liquid crystal layer. This technology has also been called true QLED display,[50] and Electroluminescent quantum dots (ELQD, QDLE, EL-QLED)[51][52]
The structure of a QD-LED is similar to the basic design of an OLED. The major difference is that the light emitting devices are quantum dots, such as cadmium selenide (CdSe) nanocrystals. A layer of quantum dots is sandwiched between layers of electron-transporting and hole-transporting organic materials. An applied electric field causes electrons and holes to move into the quantum dot layer, where they are captured in the quantum dot and recombine, emitting photons.[13][53] The demonstrated color gamut from QD-LEDs exceeds the performance of both LCD and OLED display technologies.[54]
Mass production of active-matrix QLED displays using ink-jet printing is expected to begin in 2020-2021.[55][56][57][35][36] InP ink-jet solutions are being researched by Nanosys, Nanoco, Nanophotonica, OSRAM OLED, Fraunhofer IAP, and Seoul National University, among others.[34][58][59] As of 2019, InP based materials are still not yet ready for commercial production due to limited lifetime.[60]
Limited lifetime, and with AMOLED we saw color problems and visible deterioration within as little as two years of frequent use...
Meanwhile, MicroLED is suffering from tremendous yield issues, and quite simply, can't be done small enough.
Samsung is trying a lot of things but still haven't got much.
