Can we integrate QD into OLED? OR does this PR mean replace OLED with QDLED?

Quantum Materials Corp Achieves Record Performance for Pure Red Cadmium-Free Quantum Dots
Advance seen as pivotal step in quantum dot migration to OLED platform and true QD-LED displays

San Marcos, TX -- August 9, 2017 -- Leading American Quantum Dot manufacturer Quantum Materials Corp) (OTCQB:QTMM) today announced that it has achieved 99.5% quantum yield efficiency for the Company’s pure red (630 nm emission peak) cadmium-free quantum dots.

Pictured above are Quantum Materials Corp pure red cadmium-free quantum dots next to standard OLED phosphors on the right. Using the same source and level of excitation, it is easy to see that the quantum dots have significantly higher relative brightness.

At this point Quantum Materials Corp’s pure red (630nm) cadmium-free quantum dots offer the highest photon conversion efficiency in the industry - even when compared with quantum dots made with cadmium, a material known for its toxicity - by other quantum dot manufacturers. Of additional significance is that Quantum’s pure red Cd-free quantum dots were manufactured via the Company’s proprietary continuous-flow manufacturing process, assuring high uniformity through the high-volume production process.

OLED displays have greater contrast ratio and overall color display than LCD. Because OLED screens are emissive, meaning that each individual pixel is its own light source, versus LCD technology, which is transmissive and uses backlighting for presentation, OLED offers significant power efficiency as well as design flexibility – displays are much thinner without the need for a backlight, and also offer faster response times, with OLED’s theoretically able to achieve a 0.01 millisecond response time versus 1 millisecond for modern LCD screens. Also a true QD-LED could produce displays with up to 1000 pixels per inch resolution. Quantum Dots can be easily integrated into the existing photo resist film layer and Quantum Materials Corp is working with film partners who are experts in this field.

“Our primary focus is on driving cadmium-free quantum dots as a phosphor replacement in OLED displays, in concordance with Apple’s recent announcement regarding their integration of quantum dot and OLED technologies into QD-LED for future iPhone displays. Our materials are the foundation for accelerating development of QD-LED displays and making them a reality for mobile devices. QD-LED display form factors are more desirable for mobile devices and quantum dots as a phosphor replacement will radically improve color performance and energy efficiency over current OLED technology,” said Toshi Ando, Quantum Materials Corp VP of marketing.

“Extracting and optimizing high levels of performance from cadmium free quantum dots is not trivial and our team continues to be on the forefront of discovery in this exciting area of nanomaterials. This achievement is even more significant when you consider the fact that it is being accomplished in a high volume production environment and is not simply a small one-off batch science experiment requiring days of post processing. Our process is quickly scalable to industrial-volume production at a price point commercially viable for next-gen QD-LED display development efforts such as Apple’s,” We have already made a great deal of progress working with our film partners to integrate our materials into optical film for LED display applications and it was a natural progression for us to leverage that experience into QD-LED photo resist film applications concluded Quantum Materials’ President and CEO Stephen Squires.