When it comes to screen technology, is closely related to our company's business. Today we will share with you the latest technology in the screen industry. Let's start with the new LCD materials, and then I will give you a few screen technologies that the public is concerned about.
There are many screen technologies on the market today, but by far the most widely known is LCD technology. Recently, there is new research about proof-of-concept display technology. This technology can replace liquid crystal (LCD) panels in LCD screens. The application of this technology can change the screen and make the screen thinner and lower energy consumption.
However, what technology is used in this? I will reveal them one by one for you next. To drive individual pixels at high modulation rates, the research team's proof-of-concept platform uses conductive indium tin oxide (ITO) as a micro-heater for silicon metal surface cells, which can rapidly change optical properties, silicon thickness, and thickness area of the liquid crystal screen of the metasurface unit is only one-hundredth of the liquid crystal unit on the traditional display.
If this technology is applied to the raw materials of LCD screens, it will be a sea-shaking change.
And then lets we talk about the technologies of OLED.
In the last article, we talked about OLED technology and AMOLED technology. Today we talk about POLED technology. The full name of this technology is Plastic Light Emitting Diode. It is a technology that uses a flexible plastic substrate instead of glass to coat the electronic semiconductor. In this way, POLED glass can be bent, folded, or rolled without breaking. Now it has been applied to the screens of many mobile phones.
It is also worth mentioning that Apple acquired LuxVue's Micro LED technology in 2014. What exactly is this technology?
Micro LED displays consist of arrays of microscopic LEDs that form individual pixel elements. Because these LEDs are small enough, and because they are self-illuminating, MicroLEDs can produce picture contrast comparable to OLEDs, but with much higher brightness.
The pixel width of Apple's MicroLED can be under 10 microns, while LuxVue's main mass transfer technology route is a transfer technology based on electrostatic force regulation, which adjusts the electrostatic force by changing the voltage applied by the electrostatic transfer head to complete chip transfer. This scheme can transfer the chip array, and its transfer rate can reach 12 kk/h.
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