Quantum Materials, a North American manufacturer of quantum dots, recently announced that its quantum yield of pure red (630nm emission peaks) without quantum dots has reached 99.5%. The company also pointed out that its free-standing quantum dots have lasted up to 1,000 hours in remote LED applications. Quantum Materials has achieved 99.5% quantum efficiency and over 1000 hours of continuous operation.
Quantum Materials stated that its pure red (630nm) free quantum dots offer the highest photon conversion efficiency in the industry. The company said that its pure red quantum dots are more effective than quantum dots made with **. The company uses its proprietary continuous-flow manufacturing method to create pure red free quantum dots.
According to the company, its continuous process ensures high homogeneity in mass production. It is worth noting that OLED displays have greater contrast and overall color gamut than LCDs. The OLED screen uses a single luminous pixel as its own light source. OLED displays differ from LCD technology in that LCD technology is transmissive and uses backlight technology.
Because OLEDs are thin, OLED displays do not require backlights, so they can significantly increase power efficiency and enable thinner displays. In addition, since the backlight source is not required, the theoretical response time is 100 times higher than that of the modern liquid crystal display, and the response time is 0.01 milliseconds.
The company said that true QD-LED displays are more powerful than OLED displays with a resolution of up to 1,000 pixels per inch. The company stated that quantum dots can be easily integrated into existing photoresist film layers and are currently collaborating with expert partners to make photoresist films. The shape factor of the QD-LED display is more suitable for mobile devices and quantum dots, so phosphor replacement will completely improve the color performance and energy efficiency of the existing OLED technology. â€
Smart TV/box information can focus on smart TV information network sofa butler (http://), China's influential TV box and smart TV website, providing information, communication, TV boxes, smart TVs, smart TV software, etc. Answering questions.
According to the company, its continuous process ensures high homogeneity in mass production. It is worth noting that OLED displays have greater contrast and overall color gamut than LCDs. The OLED screen uses a single luminous pixel as its own light source. OLED displays differ from LCD technology in that LCD technology is transmissive and uses backlight technology.
Because OLEDs are thin, OLED displays do not require backlights, so they can significantly increase power efficiency and enable thinner displays. In addition, since the backlight source is not required, the theoretical response time is 100 times higher than that of the modern liquid crystal display, and the response time is 0.01 milliseconds.
The company said that true QD-LED displays are more powerful than OLED displays with a resolution of up to 1,000 pixels per inch. The company stated that quantum dots can be easily integrated into existing photoresist film layers and are currently collaborating with expert partners to make photoresist films. The shape factor of the QD-LED display is more suitable for mobile devices and quantum dots, so phosphor replacement will completely improve the color performance and energy efficiency of the existing OLED technology. â€
Smart TV/box information can focus on smart TV information network sofa butler (http://), China's influential TV box and smart TV website, providing information, communication, TV boxes, smart TVs, smart TV software, etc. Answering questions.