Like shaving blades and hamburger, the best OLED key seems to be more chimneys. OLED layers stacked on other layers of OLED can lead to brighter and brighter offers. OLED screens on TVs, screens, laptops and phones already provide the best image quality of any display technology, and with two new technologies, they are about to improve.
The last OLED TV from LG, G5It features a four-legged design that results in the CNET image, which CNET has experienced so far-more than 30 % brighter than any other OLED TV we tested. This is a big leap in performance of what is already some of Best TV devices never.
New developments in phosphorous materials to supplement OLED materials are usually interesting. This new technology will probably improve brightness or make the most efficient offers for mobile devices. Are these developments just noise? Maybe not. This looks like a dangerous jump in OLED performance. This is the reason.
Small chimneys
OLEDS is used from the third generation LG, such as previous generations, OLED materials with OLED yellow, yellow and green, as well as color filters, to create red, green and blue light. The new design uses separate red and green OLED materials, which is a scarcity of OLED TV designs.
To understand the reason for noting this new design, let’s first take a moment to talk about the previous generations of OLED and how it worked. Before popular opinion, modern OLED TVs do not contain red, green and blue OLED materials, creating light. Try Samsung RGB OLED in the first days But he could not get it to work effectively. Instead, LG has long released the blue OLED as well as OLED yellow or yellow. This “white” light will pass through color filters to create red, green and blue color that forms an image. They were throwing an additional white pixel to improve brightness.
Our Talk about this beforeAnd while it seemed strange at the beginning, it seemed great at the time, and it appears to be it It has been improved only over the years. Samsung followed a different approach when it finally reinforced the OLED market QD-ODE design. This user only OLED is blue and green and green Quantum points To create a rainbow from fruit flavors.
The problem, on the part of technology, is that you can pay OLED strongly. There is a variety of reasons for this, not the least longevity. The candle that burns twice the burning half brightly, mainly, mainly. What the engineers found is that if you accumulate OLED layers on top of each other, they can together create a brighter image with no individual layer in particular. As in, “33+33+33 = ~ 100” has advantages on “100 = 100.” There is more than all of that, but so we got here.
Not only more chimneys, but different piles
So with this in mind, I am sure you see how it makes sense only add another layer (“33+33+33+33 = profit!”). Although it is essentially true, there is another change here, as a person who wrote about OLED from his early days, I find it particularly wonderful: LG RGB has gone.
LG is called “Primary RGB Tandem” technology. It contains the blue OLED traders, and exchanges the yellow green layer for separate green and red layers. (RGB OLED returns!) The biggest feature here is the best color performance at higher brightness levels. There are clear advantages of efficiency for not using yellow green materials to create green and red. Blue, proceed with the child in OLED, is still doubled in the new design for the reasons of brightness and longevity.
in CNET tests for G5 OLEDWe measured about 2800 February, which is 31 % more brighter than the other OLED TV that we reviewed, and the Samsung S95D, a legend of about 40 % in brightness on the previous LG G4. Although our tests do not coincide with LG Display claims for 4000 networks, it is still a great performance leap after many years of relatively modest improvements.
phosphorescence
Blue phosphorous in the global screen laboratory.
LG also recently It announced a different penetration of OLED This is not completely ready for the “peak time” TV but it is not less interesting, at least if you are the student who is studying a lot like me. The blue OLED materials were used on TVs so far. This means, mainly, that when they give them energy, they shine, and when you turn it off, they think. phosphorescence It works a little different. Energy saving for phosphorous materials, glow. The duration in which glow varies, but what makes it interesting is that phosphorous materials tend to be more efficient than that granted. They “adhered” to energy for a moment, and they call it more light than the “immediate” transformation of lighting materials.
OLED Blue Blue of the White Whale in OLED and LG design, along with Universal Display Corp, at the end (after I worked on it For a long time). They combine a blue fluorescent layer with a blue phosphorous layer, currently associated with a green yellow layer. This combines “the stability of fluorescent materials and energy efficiency of phosphorous materials, which leads to a decrease in energy consumption by approximately 15 %.”
Currently, LG intends to use this technology on display screens that require great brightness and efficiency, which is smartphones and tablet screens. Is it possible to adjust the four -companies design on new LG TVs to use the phosphorste layer for more brightness and energy efficiency? I would like to assume it, at least in the end.
The new king is now?
TV technology is the next generation with many names: QD-IL, El-STD, Nanoleed, QED; AKA direct offer, electrical amount points.
It would be logical to drift one’s eyes towards Samsung to find out what will be its response. However, you are not sure if they need one. At least, not now. The QD technology itself is completely new and very good. The quantum points are very great and are almost 100 % effective in converting the color of light to another. QD OLED does not have the same potential restrictions with color saturation at high brightness levels as the oldest LG designs. So if Samsung added more chimneys (somewhere between possible and possible), you can theoretically get larger brightness while keeping the color saturation. If the company turns into a phosphorous blue material, you may see improvements in brightness and efficiency, just as LG demands. We’ll see.
What we can also imagine, on the horizon, is something that may replace OLED. QD-IL, also known as Nanoleed, is also known as direct vision quantum pointsIt is used as the electrical quantum points to create an image, OLED or LED lights are not required. After several years of technology -bound technology shows, TCL had a preliminary model sitting in his booth in CES 2025 for everyone (at least, everyone who noticed) to see. In the Information Show Association DisplaySamsung has offered a preliminary model of 400 nit. As this technique goes, this is large and bright. (We love Big and Bright.) It will be a few interesting years for display technology, which is certain.
In addition to covering cameras and display technology, Jeff does photo tours Of museums and cold sites around the world, including Nuclear submarinesand Aircraftand Castles in the Middle AgesEpic 10,000 miles road trips And more.
Also, check out Budget travel for dollsAnd his book, and for him The best science fiction novel About the city’s submarines. You can follow it Instagram and YouTube.
https://www.cnet.com/a/img/resize/d11c65e20c2aac20728cdd099effa56ed6731b66/hub/2025/04/21/f877ae15-5bf9-4679-97aa-3f1736a22fbe/lg-g5-1.jpg?auto=webp&fit=crop&height=675&width=1200
Source link