nano cell lcd displays brands

Experience television as never before. LG NanoCell TV delivers enhanced 4K movies, sports and gaming. Raising the benchmark in LED picture quality, our Nano Color technology brings natural, lifelike color, while Nano Accuracy offers more precise color and wider angles. And with the latest AI, the LG NanoCell TV elevates everything across picture, sound and connected home. Discover just a few of the features available in our collection.

• Over a billion rich colors. Content has never been more colorful. LG NanoCell TVs open your eyes to every color imaginable, painting your views in a whole new spectrum of over a billion rich colors in everything from best-picture nominees to big playoff games. (Achieved through 10-bit dithering for NANO91/90/85/81/80 series.)

• TruMotion Technology. Whether you choose a NanoCell TV with TruMotion 240 (Native 120Hz) or TruMotion 120 (Native 60Hz), you"ll get reduced blur and sharper details – giving fast-action movie sequences and lightning-fast sports plays a smoother look from frame to frame.

• Dolby Vision IQ & Dolby Atmos: Our newest NanoCell TVs delivers Dolby technology that ups the action. Dolby Vision IQ automatically adjusts picture settings depending on ambient lighting conditions and content genres, while Dolby Atmos® puts you in the middle of the action with multi-dimensional surround sound that seems to flow all around you. (Dolby Vision is a trademark of Dolby Laboratories. Dolby, Dolby Atmos and the double-D symbol are registered trademarks of Dolby Laboratories.)

• Filmmaker Mode™: When you choose an LG NanoCell TV with Filmmaker Mode, you can see what directors envisioned. It"s a setting that respects the craft – translating the director"s cinematic vision to your TV with automatic picture and processor settings and brings true authenticity.

• HGIG: High Dynamic Range isn"t just for movies – and LG NanoCell TVs prove it by using HDR technology to drop you right into the action – for a new level of immersive gaming that will transform your play.

Of course, the features don’t stop there. Browse our full range of innovative 8K and 4K NanoCell TVs — and create a home entertainment space that"s perfect for you. Be sure to enhance your experience with the latest in a sound bars, home audio and home video products, including a wide range of accessories designed to take home entertainment to the next level.

NanoCell TV refers to a type of display technology by the LG brand (see more TV brands) that offers wide viewing angles, outstanding color and clarity, and various smart features that help connect your home.

The NanoCell technology is the best for offering an incredible watching experience when watching your favorite movie, TV shows, sports, or playing games. The NanoCell televisions have a lot of similarities with LED TVs and LCD TVs. However, they maintain a similar resolution to other 4K TVs, and they are still backlit.

The NanoCell TV technology is more similar to QLED TVs as it comes with a layer of nanoparticles similar to a color filter and helps to enhance color accuracy. This ensures you end up with superior quality and lifelike pictures.

The LG NanoCell Technology works by using a filter layer that sits in the TV and helps to absorb unwanted light wavelengths. Getting rid of the unwanted wavelengths helps to purify the color output and enhance the color depth.

You can look at the NanoCell technology by thinking about paint. You may not achieve a purely blue color if you have traces of other colors in the mixture. In the same way, the LG technology helps to remove impurities, thereby enhancing the color depth, resulting in incredible image quality.

The LG NanoCell TVs use tiny bits of red, green, and blue light to paint their pictures. Although absorbing unwanted light wavelengths may look like removing color, the result is enhanced color depth. The unwanted dull wavelengths that would taint the blue, red, and green sub-pixels are removed.

NanoCell TV doesn"t offer anything extra than what you get from 4K TVs. It still provides the same eight million-plus pixels. The incoming light can affect how the colors look on your TV display. Additionally, neighboring pixels can bleed color to the neighboring pixel affecting the color accuracy. However, the NanoCell technology helps make the blue, red, and green colors displayed look better.

Some high-end NanoCell televisions also come with a feature known as Full Array Local Dimming. The FALD refers to a smart tech that dims the backlight of your TV when there are dark scenes. This is a technology the OLED TVs also deliver effectively, though they are more expensive.

NanoCell TV is an excellent option if you are looking for better quality images than the standard LCD TV. The TVs also support the HDR Dolby Vision content, and it also features the Dolby Atmos sound that ensures you enjoy the most cinema-like experience. Also, if you compare the price of UHD and NanoCell TVs, the latter will may cost you a little more money (see more UHD TV reviews).

One advantage of the OLED TV is that its possible to achieve true blacks on the screen. When the part of the screen is black, the pixels are off. Each pixel is lit individually, which means the screens have a wider viewing angle than LG NanoCell TVs or standard LEDs.

The LG NonoCell TVs are LCD screens and come with an in-plane switching (IPS) panel. As such, they offer a wide range of viewing angles. Additionally, NanoCell screens feature a nanoparticle layer that filters all the unwanted wavelengths that would affect the brightness and color accuracy of the screen.

The nanoparticle layer ensures that no color can bleed into other parts of your screen. Therefore, NanoCell TVs offer more accurate colors compared to LEd screens (see also Toshiba TVs).

OLED TVs beat NanoCell TVs in various aspects (see Sharp TVs). For instance, OLED offers better picture quality, deeper blacks, brighter whites, better energy consumption, and a more immersive gaming experience (see VIZIO TVs gaming settings here).

On the other hand, NanoCell doesn"t risk burn-in like the OLED, and it is a better option to use in brighter rooms. In addition, for more info on the subject, check out our NanoCell and OLED comparison.

Samsung QLED TVs come with a technique known as "quantum dots LED TV." The quantum dots refer to small nanocrystals that are layered behind the LCD panel. When the nanocrystals receive some light, they illuminate in blue, red, and green. The colored light - see best Samsung color settings here - then transmits to the green, red, and blue images you see on your screen.

On the other hand, the NanoCell TV by LG - see "LG NanoCell Review" - comes with nano-scale particles layered in front of the LCD panel. The particles act as a light-absorbing filter that removes unwanted dull colors from your image. Therefore, you end up with purer greens and reds and a more smooth transition between similar colors.

Both techniques by Samsung QLED and LG NanoCell ensure you enjoy a much better image quality. However, the two have some practical differences. For instance, QLED technology comes with a vertical alignment (VA) panel. The VA panels make use of the vertically aligned liquid crystals. The crystals tilt if a voltage is applied to allow light to pass through.

On the other hand, the LG NanoCell screens come with in-plane switching panels. Unlike the VA panels, where the crystals are horizontal, here they are aligned parallel. The panels are better at handling reflections, and the technique also offers a broader viewing angle. Therefore, you can enjoy your favorite movie or sports show from various sitting positions.

So, which one is the best?The QLED screen offers deeper blacks and has a bettercontrast ratio. However, you should ensure your viewing position is opposite the screen for the best results. NanoCell is not bothered by reflections. However, it is the second choice if you want to watch some movies in a dark room at night.

LG NaNoCell TV"s wide range of viewing angles ensures you don"t have to quarrel about who gets the best seat in the room. The top screen layer deals with the ambient light, while the low input lag is advantageous for gaming enthusiasts. Higher models of NanoCell TV support up to 120Hz of refresh rate, while some also support the variable refresh rate. This helps the TV to change its refresh rate depending on the content or task.

LG is a reputable brand (see also Hisense and Sony) that you can trust to offer you high-quality devices. The company doesn"t disappoint with the NanoCell TV. It comes with incredible features that help you to enjoy a lifelike watching experience. For instance, the anti-reflective layer helps to deal with ambient light. Also, it comes with a wide range of viewing angles, ensuring you can enjoy watching from various positions. On a similar note, if you want your TV to fit a tight budget and are a casual viewer, look for more affordable TV brands like Vizio, Hisence, or TCL.

In this article, we’re going to take a dive into LG NanoCell technology - what it does, if it’s worth the extra spend, and how it compares to both OLED and QLED. We’ve also picked out some prominent examples of NanoCell televisions currently available from LG. For a complete overview of what you should know before buying a new television, don"t miss our best TV to buy guide.

NanoCell televisions don’t offer you any further detail than that which 4K already offers. You still have the same 8-million-or-so pixels at your disposal (you can read our what is a 4K TV guide for an in-depth look at Ultra HD television). NanoCell technology is all about making those pixels look as good as possible.

Sometimes, when reading about innovations in TV tech, you’d be forgiven for thinking that you need a physics degree to understand it. Here’s what LG has to say on its website: "LG Nano Cell technology uses particles to absorb unwanted light wavelengths and enhance the purity of the red and green colours displayed on the screen."

Ultimately, the specifics aren’t that important - far more crucial is what these handy little nano-particles achieve. By having the reds and greens better filtered, what you get is an elevated quality of image that you simply won’t get in standard 4K sets. That filter produces a better colour gamut: that is, a wider range of colours.

What you also get in higher-end NanoCell TVs - like the Nano91 line - is something called Full Array Local Dimming technology, or FALD. This is an intelligent tech that dims the television’s backlight when dark sections of an image appear - think shadows and night scenes. Anybody who knows the basics of OLED technology will recognise this as something that those televisions deliver, albeit more effectively and for a heftier price.

Ultimately this is where NanoCell televisions have been positioned by LG: as a less costly alternative to OLED (of which LG do some incredible examples) for people who are seeking out a viewing quality that’s that bit better than standard LCD/4K. They also come with a wealth of extra features - they support HDR Dolby Vision content (a HDR format Netflix offers) and feature Dolby Atmos sound. Many LG NanoCell TVs also have the Google Assistant built into their smart platforms, offering you voice control over your set.

OLED, put bluntly. As you can read in our what is an OLED TV explainer, these top-end televisions are the reigning champion among mass-market televisions in terms of sensory experience. Not having that built-in backlight, they’re far slimmer than NanoCell TVs too. That’s why, as a general rule, you’ll be spending at least £1,200 on a set, while NanoCell TVs start at £650. At the bottom of this article we"ve picked out a number of LG NanoCell TVs on the market.

Given the price difference, it’s not fair to make a straight comparison between NanoCell and OLED. Instead, we should look at the closest equivalent: QLED.

QLED is a display technology that’s been developed by Samsung’s. Like NanoCell, it sits in the market as a kind of affordable middle-ground between standard 4K televisions and OLED. Similar to NanoCell, it still makes use of a traditional LED backlight, but uses a layer of ‘quantum dots’ to help optimise those image pixels.

We haven’t done a direct test, but we can tell you that NanoCell televisions are widely acknowledged to display a brighter image, while QLED televisions deliver blacker blacks. Think about whether you watch TV with the overhead lights on or in relative gloom: this should help you decide which is the better option.

If you’re thinking about buying a NanoCell television, our advice is that you browse Samsung’s QLED at the same time. Make sure you know the right size (check out the TV size guide), and then we think it’s a case of comparing prices of each brand. It may well come down to one of them being on sale, and one not.

As we’ve said, NanoCell televisions are priced well under that of an OLED model, where your spending will start in the four figures (for now, at least). By contrast, you"ll be spending not that much over £500 for the cheapest NanoCell televisions, such as the 55-inch inch NANO796NF.

Like all TVs, NanoCells don"t necessarily get pricier the bigger they get. Because it"s from a newer generation, the 49-inch NANO866NA 4K NanoCell TV costs more than the model above, as does the NANO866NA 4K NanoCell TV of the same size. We"re seeing both cost around the £750 mark.

The main takeaway from this - especially with the larger sets - is that keeping an eye on prices is a good idea, especially during peak sales periods like Black Friday. If you’re not hellbent on getting the latest NanoCell off the production line, you can easily end up getting a quietly magnificent TV for not much more than a standard LCD 4K TV.

Our selection of the best LG TVs is topped by OLED models, which is not surprising given the company’s dominance when it comes to OLED technology. But LG also makes QLED displays (the company calls these “QNED” models) and has an affordable “NanoCell” line of regular LED-backlit TVs.

LG is one of the top-performing TV brands in the world, and the best LG TVs you"ll find on the market today are some of the most technically-advanced displays that have ever been made.

LG is one of the best TV makers, and it"s also one of the most prolific. LG tends to bring out many new TVs throughout any given year, from high-end displays that often feature in our best TVs guide, through to entry-level screens that are better suited to those on a budget. With so much choice, it can be a challenge to choose the best LG TV for you.

The powerful a9 Gen 4 AI processor on board offers excellent image quality, excellent motion handling and good upscaling – although sometimes we found that upscaled faces were a little redder than they would be in real life. That"s a really minor niggle, though: the visuals here are first class.

The real hero here is LG"s OLED Evo technology with Brightness Booster Max, which makes this LG"s brightest OLED yet – even more than the LG C2. Matched with excellent image processing, Dolby Vision HDR and – yes – four HDMI 2.1 ports, it"s very well futureproofed.

This is LG"s most affordable OLED, and while that inevitably means it lacks some of the features of its more expensive stablemates, LG hasn"t cut corners when it comes to picture quality. The OLED panel here is very impressive with bright whites, deep blacks and excellent contrast. As you"d expect the HDR support, like other LGs, includes Dolby Vision.

The A2 may lack the highest specs of its stablemates but when it comes to picture quality it"s a very fine TV. If you want to spend as little as possible to get really great visuals this is an excellent option.

LG"s LCD TVs have a hard time as LG focuses on making a case for OLED"s superiority. However, if you"re looking for an LCD TV the Nano90 is more than capable and won"t cost as much as the flagship C2 OLED at the top of this list.

The arrival of HDR has been particularly challenging for IPS screens, putting even more strain on IPS’s inherent contrast controls. The Nano90’s new backlight power management system, though, truly transforms LG’s LCD HDR fortunes – despite some mild backlight flickering.

Contrast is vastly improved over past LCD models, too – and black levels are, if not on a par with OLED, certainly still capable. During our LG Nano90 review we wrote: "It finally finds a way to massively improve - if not quite fully solve - LG’s long-running LCD contrast and backlight problems. It does this, too, without sacrificing the viewing angle benefits of IPS LCD screens, while also bringing out the strengths of LG’s Nanocell color technology in a way we’ve never been able to appreciate before."

We imagine that if you’re after an LED set at this price range, you’ll probably be making the jump to a QLED from Samsung. But for LG fans, though, the Nano90 is still a solid choice for your home

LG’s OLED sets tend to have a slightly warmer ‘pop’ to colors than some competitors, but the difference is pretty small unless you’re looking for it. OLED is able to reach deeper black levels and offer more precise light control than even the best LCD or QLED TVs, thanks to its self-emitting panels and ability to turn pixels off entirely. The TVs degrade faster than LCDs, though, and can"t go quite as bright as some of the newer Samsung TV models. (You can suss out your preference in our OLED vs QLED comparison guide.)

LED sets work a bit differently, though. LG’s LEDs are now labelled under “NanoCell”, rather than “Super UHD”, though they’re still the LED panels LG has been making for years.

The LG NanoCell 9 Series – that “9” again referring to its 2019 release, so you know it’s up to date – is listed as “LG 65SM9500PUA”, this time leading with the model size (65-inch). That’s followed by the “S” labelling for Super UHD / NanoCell TVs, compared to “U” for simpler UHD TVs, “L” for LED TVs that aren’t 4K. LG also used to use “E” for OLED and “P” or Plasma TVs (now discontinued), though you won’t find these labels on new sets.

If you’re in the market for a smart TV, you’re probably weighing NanoCell vs OLED options for your next upgrade. The truth is, NanoCell and OLED are two quality yet different TV models. How do the two compare, and which is better? Let’s see how both displays stack up against each other using side-by-side comparisons, must-know facts, and pros and cons.

OLED stands for Organic Light Emitting Diode. Its self-illuminating displays eliminate the need for LED backlighting. As a newer digital display technology, OLED doesn’t require a backlight to show images. Instead, each pixel is individually lit.

With OLED, it’s possible to achieve “true black,” where some TV parts can be completely dark. The logic behind this is simple. When the TV area is black, the pixels are turned off. OLED TVs are highly rated by TV experts and photographers alike for their contrast, deep blacks, and excellent dynamic range.

Despite their incredible image detail, OLED are more expensive than most LED TVs. Some models cost twice the price of LG Nanocel TVs. Not to mention, there is always the remote risk of a “burn-in”, when an image freezes on the screen.

LG NanoCell technology uses particles to absorb unwanted light wavelengths and enhance the purity of the red and green colors displayed on the screen.

In addition, they create subtler, more accurate colors that stay true, even at wide viewing angles. LG touts that NanoCell displays support over one billion colors. Never mind that the physical eye can only distinguish between 10 million colors.

Nanoparticles absorb the extra light at the unwanted wavelength and cut down on color bleed from RGB colors displayed on the screen. The displays can create more accurate colors with narrow bands using red, green, and blue.

REAL 4K NANOCELL DISPLAY: Bring your favorite shows to life with a billion rich colors. Get deep blacks and enhanced contrast for a more detailed picture with Full Array Dimming.

From user reports, OLED displays are better because they can individually turn off pixels, have near-instant response times, wider viewing angles, and better color accuracy. NanoCell is best used in bright areas.

OLED performs at a high level and supports quality viewing but at a high price, while NanoCell is more affordably priced. So, if you have the budget, OLED is a good choice. Although many also say that NanoCell TVs come with excellent features that enhance an immersive gaming experience.

The bottom line is NanoCell vs OLED are two common monitor types, with their pros and cons. They’re inherently different, and each excels in a distinct set of scenarios. Ultimatel, the choice of NanoCell over OLED TVs comes down to use case and budget.

Television brands constantly improve their TVs each year. To do this, they may introduce new technology, such as quantum dots or organic light-emitting diodes (OLEDs.) One of the most recent introductions, NanoCells, shapes the future for LG and will probably be among the best TVs in the market. This new technology may leave people wondering what is NanoCell TV.

NanoCell TVs work the same as light-emitting diode (LED) liquid crystal display (LCD) models, but they have an additional filter layer. LCD TVs house many liquid crystals arranged in a grid, with three color filters, one each of red, green, and blue. These crystals do not produce the light necessary for the display, so each TV includes a backlight system. You should know what is LCD TV and if your TV model has this type of display. In most cases, this backlight system is one with LEDs. There are several arrangements of LED panels.

NanoCell TVs have a film layer that contains NanoCells. This layer aims to increase brightness and color contrast while also reducing light bleeding into the darker surrounding areas. Additionally, NanoCells may help to create a more immersive experience. They are much better than plasma TVs if you know what a plasma TV is. And if you know about plasma TVs maybe you are interested to learn more about how 3D TVs work or what a DLP TV is. Granted all three of these types of TV are no longer produced, they can still be found on the secondary market. And learning more about them could help inform you on what you can expect from them should you purchase one. Enough of old technologies, continue reading to learn more about NanoCelll technology in TVs.

One of the NanoCell filter functions comes from the belief that colors bleed into one another on a TV screen. This concept can be seen in various optical illusions, where the eye sees the same color differently depending on the surroundings. However, TVs may show vibrant and authentic colors with the filter, allowing viewers to observe the content as the creator intended. With this filter, consumers notice that the colors on the screen have better contrast between colors and brighter whites and deeper darks.

In many models, NanoCell TV may also allow for wider viewing angles. Because the colors are more precise and only where they should be, the viewing angle should affect the detail and clarity of the image less. This idea means that viewers can sit in a wider variety of positions and see a similar image. In the future, LG may combine quantum dot and NanoCell technology together to create QNED TVs. Quantum dot filers are used in quantum dot light-emitting diode (QLED) TVs with a similar effect to that of a NanoCell television.

NanoCell TVs typically include 4K or 8K resolutions. You likely already know that 8K resolution is four times better than 4K. 8K resolution jams even more tiny pixels into your screen, making for a sharper and more realistic image, offering 33 million pixels (7680X4320.) Every aspect of NanoCell TVs also aims to produce a more immersive viewing experience.

One aspect of many NanoCell TVs, TruMotion, attempts to reduce the blur between images’ frames. Because of this and the fact that many NanoCell TVs feature 4K or 8K resolution, gamers may notice the PS5 enhanced graphics more.

Both of our main television brands offer advanced LCD screens. LG produces the NanoCell screens, while Samsung focuses on QLED. So, what’s the difference?

Samsung"s QLED screen is effectively an enhanced version of a regular LCD screen. However, the QLED models add extra layers in the screen composed of quantum dots. These quantum dots dramatically increase the vividness of the color, resulting in a bright, vibrant image. Samsung QLEDs also have enhanced backlights which can further increase the color.

LG’s NanoCell technology is similar, being an LCD screen with additional layers. However, instead of “adding color” like the QLED, NanoCell acts as more of a filter, removing or absorbing unwanted light and purifying the red and green colors on the screen.

Since the two screen technologies operate differently, it’s no surprise that they look rather different when viewed in person. QLED focuses on a bright, vibrant picture, where NanoCell tends to produce deeper or more “3D” color.

LG’s OLED has been one of the best display technologies for quite some time. Whether they are used in LG’s own OLED TVs or in another brand’s (Sony, Panasonic) OLED TV lineup, OLED offers superior image quality and vibrant colors. Nano Cell technology on the other hand is LG’s way to increase the picture quality and color range of its LCD / LED TVs, particularly in their high-end LED TVs and make their performance close to OLED TVs. In this article, we will explore the world of OLED and NanoCell technologies and compare OLED vs Nano Cell with their pros and cons.

We will also see the differences between OLED and NanoCell TVs with respect to some important specifications (display type, viewing angles, burn-in, etc.). Finally, we will try to figure out which is the best for you in OLED vs NanoCell. So, let’s get started.

The standout feature of OLED display is that the panel itself acts as light source. Each pixel (the smallest display element) in an OLED TV can emit its own light. This is in contrast to the popular LCD TVs, which require a separate source of backlight (previously fluorescent lamps but almost all modern LCD TVs use LEDs for backlight) to illuminate the pixels.

So, OLED TVs doesn’t require any backlight as they can produce their own light. What are the benefits of this? As each pixel emits its own light, we can control each pixel to turn OFF during dark scenes to produce stunning blacks. The rest of the image displays its own colors but the dark parts of the images will be completely dark.

This improves the contrast of the display and there is no problem of backlight bleeding in OLEDs. Another important benefit of OLED is viewing angles. For LCD TVs, viewing angles has always been a problem, where you have to sit significantly straight in front of the TV and if not the colors of the image look washed out.

NanoCell TV is a type of LCD / LED TV from LG, particularly their IPS panel LCD TVs. Before understanding NanoCell technology, let us first take a quick look at IPS technology (In-plane Switching).

Earlier LCD TVs used vertical alignment of liquid crystal. Due to this, if you sit slightly off-center from the TV, the picture quality appears low and also the colors on the TV looked washed away.

If IPS is already better than previous LCD technologies, what is the use of NanoCell technology? Even though IPS fixes the viewing angle problem of LCD TVs, the colors produced by an LCD TV are still not the best. NanoCell TVs use nano particles at individual pixels and they absorb unwanted light to enhance the primary Red, Green and Blue colors on the screen.

Of the three, only Nano90 series of TC have full array local dimming while Nano80 series has regular local dimming and the Nano75 series doesn’t have any local diming at all. Also, Nano90 series has native 120Hz refresh rate, while the remining two have only 60Hz native refresh rate.

OLED TVs, due to their self-emitting pixels, are called as Emissive Displays where as NanoCell TVs, which are a flavor of LCD TVs with LED backlighting are called as Transmissive Displays.

If you have your friends or family around to watch a new movie or a TV Show, then you don’t have to fight to take the spot straight in-front of the TV, either it is an OLED or a NanoCell as they both essentially have wide viewing angles. That being said, if you compare between OLED and NanoCell, OLED is clear winner in terms of viewing angles and color accuracy at wider viewing angles due to their self-emitting pixels.

Both OLED and NanoCell TVs have excellent color accuracy and the main concept of NanoCell is to improve the color quality of the picture and make it as perfect as an OLED TV.

Again, OLED is the clear winner here, both in terms of deep black levels and also individual pixel dimming. But NanoCell TVs with full array local dimming are also excellent at dimming but the black levels are still greyish when compared to OLEDs.

OLED TVs have one of the lowest response times out there with values as low as 1ms. NanoCell TVs are also good but the response times are between 5ms to 10ms.

One main concern of OLED TVs is burn-in. It is a situation where the display permanently displays one image (usually a news channel logo or something similar) at a location if it is displayed for too long. You have to be worried about burn-in problem in OLED TVs if you watch content with static images on screen (such as new channels) for a continuous period.

That being said, modern OLED TVs are less prone to burn-in with a screen shifter technology. NanoCell TVs on the other hand doesn’t have a burn-in problem at all.

The last and the important factor is the cost of OLED vs NanoCell TVs. LCD TVs have become quite popular over the years and the manufacturing cost also came down significantly. As a result, the cost of NanoCell TVs is significantly lower than OLED TVs.

Finally, which TV is better: OLED or NanoCell? If you want ultimate picture quality with stunning black levels, then there is no other TV as OLED. The vibrant colors, individual pixel level control, deep blacks allow you to have the ultimate movie watching experience. If you are a gamer, then OLED TVs offer you with good visuals, low input lag and fast response times. The main problem with OLED TVs is the cost. You have to spend a little extra to get all these features.

NanoCell TVs on the other hand also have good color accuracy and viewing angles (even though they are less than OLED counterparts). For watching movies, we recommend NanoCell TVs with full array local dimming. LCD TVs in genera have higher peak brightness than OLED TVs and hence watching HDR content on NanoCell TV will be amazing.

It seems like every year there is a new term to learn when it comes to TVs. OLED displays have been around a few years now, but the latest new buzz word from LG is NanoCell. I wasn’t sure what this meant at first, so I went and did the research. Here is what I found.

What Is the Difference Between NanoCell and OLED? NanoCell TVs use Backlit LED-LCD displays with a special coating for a sharper image. OLED is a completely different technology and OLED TVs emit their own light. There are several significant differences, but among the most important are that OLED TVs have the best picture quality, but NanoCell TVs can be brighter.

The side-by-side videos you may find on YouTube don’t really do the two displays justice. It’s hard to see the differences just by watching a regular movie or show with the screens next to each other. There are special test patterns that make the differences more obvious, as well as just plain knowing what to look for. Knowing what to look for is where this article can help you. Take a look at this table, and then I’ll dive into more detail on each.

LG, known primarily for their OLED display technology, has been heavily promoting their new LCD technology called “Nano Cell” recently. The exact inner workings are a closely held secret, but it is sure creating a buzz.

What is LG’s Nanocell TV? LG’s NanoCell TV displays use a combination of two technologies. First is the IPS LCD screens that allow for a wide viewing angle. Second is particles built into the screen to absorb unwanted light wavelengths, allowing for a broader color range.

The actual Nano Cell technology is a proprietary secret that LG doesn’t want its competitors to know. This is basically all that LG says about the technology:

LG Nano Cell technology uses particles to absorb unwanted light wavelengths and enhance the purity of the red and green colors displayed on the screen. In addition, they create subtler, more accurate colors that stay true, even at wide viewing angles. So, even if the whole family is gathered around the TV, everyone has the best seat in the house, whether they’re front and center, or across the room and off to the side.”

LG touts that NanoCell displays support over one billion colors. Nevermind the fact that the eye can only distinguish between 10 million colors (Hey, that’s still pretty good.) (According to Wikipdeia.) LG also provides us with this cool chart to show what light is being filtered in order to achieve that.

Nanoparticles absorb the extra light at the unwanted light wavelength and cut down on color bleed from RGB colors displayed on the screen. The displays are able to create more accurate colors with narrow bands. This is because red, green, and blue are used to create all the colors we see. When a pixel bleeds off color in between one of these three colors, it is not able to display the exact color intended. In other words, it can’t display as many colors and the image is less realistic.

The wide viewing angle is a technology that’s been around for a while. LG is able to provide a wide angle for viewing by using In-Plane Switching (IPS) Liquid Crystal Displays (LCDs).

IPS technology improves the viewing angle compared to other types of LCD displays on the market. LG is a major technological leader in this space. The way IPS technology increases the viewing angle is by reducing color distortion. This is done by holding the liquid crystals parallel to the screens orientation (which is perpendicular to the viewer), This causes the diffracted color coming through the LCD to appear uniform to the viewer.

What is OLED? OLED stands for Organic Light Emitting Diode. OLED displays are self-illuminating which eliminates the need for LED backlighting. This allows for a number of performance improvements, including true black and wider viewing angles than LCD TVs. The screens can be as thin as 8mm and can even be used in curved televisions.

Which is Better, OLED or NanoCell? In most applications, OLED displays are better because they can individually turn off pixels, have near instant reponse times, wider viewing angles, and better color accuracy. NanoCell is better for use in bright areas, and when there is the risk of image burn-in from a static image.

I provided a table at the beginning of this article for quick reference, but let’s take a closer look at each of those topics now. For my comparisons, I used data for LG’s 2020 series of NanoCell displays and their OLED CX model.

Typically, though, an OLED TV ends up being about as thick as a LCD TV because of the electronics needed beyond the screen. For example, the LG CX is very thin on the upper half, but is thick on the bottom half where all the inputs and electronics are housed. LCD screens are more uniform in depth, but either way, the displays won’t stick out much if you wall-mount them.

LG’s 2020 NanoCell lineup uses a feature they call full-array local dimming. Local dimming is a feature on LED TVs that “locally” dims the backlight behind parts of the screen that are displaying black. Its called local because it is location specific, and not the whole screen. These local sections are called zones, and different zones can be dimmed or brightened as needed. This makes blacks appear almost completely black, like an OLED screen.

OLEDs have a near immediate response time, where as LCDs tend to take a little longer. Around 4 ms – 10 ms is where it starts to become noticeable to the eye. However, anything under 14 ms is considered to be a good response time.

There is something about the NanoCell technology that makes it not as vibrant as other IPS displays. If you move off-center, the image quickly loses brightness. Color-wise, you can still get a decently accurate image when viewing from a slight angle, but it really starts to diminish once you get more than 30 degrees off-center.

OLEDs have great viewing angles. The image remains mostly accurate when viewing from a significant angle. OLEDs would be great for a wide seating arrangement. NanoCells starts to drop off at about 30 degrees, whereas OLED starts to drop off at 60 degrees.

According to reviews I’ve read, OLED TVs tend to have a truer color straight out of the Box, OLED and NanoCells, after calibration, have color accuracy is nearly perfect. Any color or white balance inaccuracies aren’t visible without the aid of a colorimeter. Any remaining inaccuracies aren’t visible to the naked eye.

OLEDs, however, do suffer from burn-in. That said, if you watch varied content you shouldn’t have a problem. Burn-in becomes a problem if there are constant static displays, like if it’s used as a PC monitor, or as a menu screen. Cell phones often have OLED screens, and burn-in from watching to many YouTube videos is a problem for people who keep the phone vertical.

This makes NanoCells a good choice to use as a computer monitor, or for restaurant menus and he like. If you use the TV to watch television or movies, then burn-in should not be an issue.

OLEDs are more expensive to manufacture, and cost almost twice as much as a standard LED-LCD. NanoCells are somewhere in the middle, as it is a brand-new technology. And just like most tech, you can expect the prices fall each year.

LG Electronics talked a lot about their Nano Cell technology at CES 2017 and how this improves performance of their Super LCD TVs. They described Nano Cell LCD displays as having, “uniformly-sized particles measuring approximately one nanometer in diameter to create more subtle, accurate colors that can be viewed from wider angles than other LCD TVs. These particles absorb surplus light wavelengths, enhancing the purity of the colors displayed on the screen. These light absorbing capabilities allow LG’s new LCD displays to filter distinct colors with much greater precision. For example, the color green on conventional TVs can blend with other color wavelengths – such as yellow or blue – causing the color to fade and take on yellowish or cyan hues. LG Nano Cell technology dramatically reduces instances of color fading, image instability and other color degradation issues. Nano Cell technology also reduces reflectivity to maintain high picture quality even in environments with ambient lighting.”

Below is a chart that provides a little more detail on the specifics of the benefits in terms on color gamut efficiency and viewing angle performance compared to quantum dot performance. LGE apparently calls the technology “Nano Cell” while LGD calls it “Nano Color.”

The exact displays and metrology used to obtain these results was not disclosed so it is a little hard to judge the validity of these comparisons – especially since these results are likely to change if compared to Samsung’s new QLED quantum dot TVs that have higher efficiency and wide viewing angle performance than last year’s Samsung models. Nevertheless, the LCD performance is a significant improvement over last years’ models.

The cross section chart provides some technical insight into the Nano Color solutions. Note that there are actually two Nano Color solutions described. After consulting with numerous sources, we have a decent explanation of what is going on.

First, Nano Color I is what was shown at CES 2017 and what will show up in models that ship this spring. The chart shows light absorbing particles of less than 2 nm, but LGE was talking about particles of less than 1 nm (which was wrong and a point of confusion). These so called “particles” in Nano Color I are not particles at all but are likely to be dye molecules. These special dyes are designed to absorb light in the gap between the green and red color bands. This should help narrow the spectrum of red and green allowing a wider color gamut for the display.

But does it? According to sources who measured the color gamut of TVs on the show floor, the FWHM of the green was 61nm and the red 62nm (see data below). While this is an improvement on the FWHM without Nano Color I, it is not as good a most quantum dot solutions.

LG may be thinking the same way as they were also showing their Nano Color II profile. This was said to be coming “in the near future,” suggesting Nano Color I may be short lived – maybe even less than a model year.

But will Nano Color II be a quantum dot solution? LG Display is not saying, but by calling the technology “light accelerating” and showing red and green particles, it certainly suggests that this is the case. The only confusing part is the particle size of ‘less than 1nm’. Conventional quantum dots are in the 3-6nm range.

LG Display also showed some charts and models of several generations of wide color gamut technology. The photo for Gen. 3, which we believe is the Nano Color I concept, shows a very dark sheet while the label in the graphic describes the wide color gamut technology as “panel polarizer.” We believe this is correct and the dye has been integrated into the polarizer.

But is this in the top or bottom polarizer? Samsung’s implementation placed a separate sheet near the back polarizer at the backlight. We believe the LG implementation adds the dye to the front polarizer, even though the model suggests it is the back polarizer. This should account for the claims of reduces reflections, lower black levels and maybe wider viewing angle with this Nano Color I solution.

Compared to other aspects of our digital revolution, displays often feel like the component that changes the least over time. Sure, we"ve had higher resolutions, improved brightness and contrast, and now we"re finally getting beyond sRGB and into true HDR colors. The problem is that even with all of these changes, there"s still a sweet spot for viewing most displays—look at TN panels from above or below and you"ll see massive color warping, and while IPS and VA panels are better, they"re still not perfect.

LG is rolling out Nano Cell technology to their 2017 Super UHD TVs, with there"s no word on computer monitor adaptations. The displays also support for HDR content, including an "HDR effect" mode that works on SDR content. However, that feature processes SDR images frame-by-frame, which usually means increased latency—not something you"d want for PC gaming, then. But in a few years once the technology has matured and prices have come down, we could see Nano Cell computer displays. Or you can just hook your PC up to a gigantic 56-inch 4K display and forget about waiting.

Every year, it seems like there’s a new kind of television technology to learn about. Two of the newer types are OLED displays and LG’s NanoCell screens. These are two quite different kinds of TV that are often marketed around similar features.

We’ve done the research, so you don’t have to. In this head-to-head article, we’ll explain what NanoCell and OLED screens are, how they work, and cover the pros and cons of each, so you know exactly what you’re getting.

LG NanoCell TVs are very similar to traditional light-emitting diode (LED) and liquid crystal display (LCD) TVs. Yes, they are still backlit and offer the same resolution as other 4K televisions.

The difference is that NanoCell utilizes an extra layer of nanoparticles which acts as a color filter and improves the vividness and accuracy of displayed colors. In this way, they"re actually more similar to QLED displays.

How does this work? Pixels in a TV display are red, green, and blue. Combinations of these colors can produce millions (or a billion in the case of NanoCell TVs) of possible colors.

The color filter used in NanoCell TVs filters out “unwanted light wavelengths.” In other words, it filters out light that would result in the wrong color being displayed. This improves the red, blue, and green colors that are displayed on the NanoCell TV. It also improves the purity of whites and blacks that you see on the screen.

Some NanoCell TVs also offer something called full-array local dimming (FALD). This technology dims the backlight on the TV in dark areas, providing darker blacks and shadows and improving the dynamic range of the screen. This provides a similar effect to OLED TVs, but for a much lower price.

One benefit of this is that it’s possible to achieve “true black” where parts of the TV can be completely dark. This is possible because when the TV area is black, the pixels are actually turned off. In addition, having each pixel individually lit means that OLED TVs have a very high dynamic range—much better than standard LEDs and NanoCell TVs.

OLED screens have a faster response time than older LED and LCD screens meaning that it’s excellent for fast motion video (such as sports or gaming). Check out our list of the best gaming TVs for PS5 and Xbox Series X/S for specific recommendations.

LG’s NanoCell TVs are in-plane switching (IPS) and LCD screens. These kinds of screens offer a very wide viewing angle. The NanoCell TVs have a second feature, a nanoparticle layer able to filter out incoming wavelengths of light that would negatively affect the color and brightness of the screen.

The filter primarily helps with the reds and greens, meaning that the color can’t “bleed” onto other parts of the screen. The result is that NanoCell TVs have very accurate colors compared to other LED screens. So, when it comes to NanoCell vs. LED, LG"s panel has the upper hand.

Because each pixel is lit independently, OLED screens have insane image quality, use less power, and have faster response times than the older LED and LCD competitors. If that"s exactly what you"re looking for, here is our list of the best OLED TVs on the market.

In most cases, OLED outperforms LG’s NanoCell TVs. OLED offers better image quality, better gaming performance, lower power consumption, deeper blacks, brighter whites, and gorgeous color.

The NanoCell, however, is better for use in brighter rooms and doesn’t come with the risk of burn-in that OLED has. NanoCell TVs are also much cheaper than OLED TVs.

Difference Between NanoCell and OLED Displays? Backlit LED-LCD displays with a unique coating are used in NanoCell TVs. OLED is a different technology, and OLED TVs produce their light.

Every year, there’s a new type of television technology to master. OLED displays and LG’s NanoCell displays are two of the newest varieties. These are two distinct sorts of TVs that are frequently marketed based on similar characteristics.

We’ve already done the legwork, so you don’t have to. We’ll describe what NanoCell and OLED screens are, how they operate, and the advantages and disadvantages of each, so you know what you’re getting in this head-to-head comparison.

OLED and Nano cell are two competing technologies that have their own sets of advantages and disadvantages. you in making a more informed selection, we’ve outlined some situations where OLED would be a superior option and others where Nano cell would be the best choice.

You despise the drab colors of images (that should be completely black). With Full Array Local Dimming, LG’s Nano cell ensures that you can watch “atmospheric films.” You’ll appreciate how these LG televisions will only dim parts of the screen that need to be darker without affecting other regions of the screen.

You want to make the most of HDR video. Netflix, Ultra HD Blu-ray, Sky, and other services utilize HDR (or high dynamic range) since it provides deeper blacks, brighter whites, and over a billion colors. You may get the greatest from all types of HDR material if you have Nano cell TV.

You’ll need a high-performance TV with excellent picture quality. OLED isn’t the newest technology on the market, but it is by far the most highly regarded by television professionals and photographers. These displays have stunning contrast, deeper black tones, and unrivaled picture performance.

You’ll need a television for your game. OLED displays will surprise you with their quick reaction time and minimal lags, allowing you to keep up with Call of Duty Game: Black Ops 4 or another game you’re currently enjoying.

In most cases, OLED displays are superior since they allow pixels to be switched off individually, have fast response times, wider viewing angles, and greater color fidelity. NanoCell is preferable in places with a lot of light and the possibility of image burn-in from a static image.

look at each of these themes in more detail now that we’ve covered the basics. I compared data from LG’s 2021 series of NanoCell displays and their OLED CX model to make my comparisons.

When light from a backlight shines through an LCD glass, it’s known as a transmissive display. Because Nano cell Displays are made with LED-LCDs, they are transmissive.

Each pixel in emissive displays emits light with a varying degree of intensity and color. OLED displays are emissive, which means they emit light from each pixel.

At the low end of each display category, these thicknesses are far lower than possible, but they give you a sense of what’s feasible. OLED displays can practically be paper-thin if required. However, they will come at a high cost. Check out LG’s 2020 WX series if interested.

However, because of the additional components required beyond the screen, an OLED television is typically about as thick as an LCD television. The upper portion of the LG CX is relatively thin, but the bottom half is considerably thicker, where all of the inputs and technologies are housed.

LG’s 2020 NanoCell series features full-array local dimming, which is a technology used in LED TVs that “locally” dims the backlight behind various screen sections displaying black. Because it is location-specific, it is known as local dimming rather than global dimming.

The colors are vibrant. However, the screen’s brightness is insufficient. The picture was also a little grainy. Furthermore, because NanoCell still utilizes IPS technology with a low contrast ratio, blacks appear gray.

In terms of response time, there is a difference between them. The immediate response time of OLEDs is around four milliseconds, whereas that of LCDs is closer to 10 milliseconds.

The NanoCell IPS technology isn’t as vibrant as other IPS displays. When you move off-center, the image fades rapidly in brightness. The color is still reasonably accurate when viewed from a slight angle,

According to reviews I’ve read after calibration, OLED and NanoCells televisions have nearly perfect color accuracy. Without the use of a colorimeter, any color or white balance errors will not be visible.

OLED displays have a disadvantage in that they may develop burn-in. On the other hand, cell phones feature OLED screens with the potential for burn-in if watched too much YouTube material.

If you use your phone mostly while it’s portrait mode, there should be no problems. People who keep their phone upright when watching lots of YouTube videos experience cell phone burn-in due to frequent static displays such as those seen on a PC monitor or as a menu screen.

It’s only natural for you to wonder why the TV is so much less bright than your computer screen. The reason has to do with contrast ratios designed into various displays. A typical contrast ratio of 1000:1 may not be sufficient to preserve image quality when displaying dark colors on a white background after long-term viewing.

As well as causing burn-in issues, this makes NanoCells an excellent candidate for usage as a computer screen or restaurant menus. If you’re using the TV to watch television or movies, you won’t have any trouble with burn-in.

The manufacturing costs of OLEDs are considerably higher, and they are also more expensive than LED-LCDs. NanoCells fall somewhere in the middle, as it is a new technology. And just like with other technologies, you can anticipate pricing to drop each year.

Is it worth it to spend more on a giant TV? With models ranging from a budget Nano cell to a more expensive OLED, you’re sure to discover one that meets your needs.

For example, the 65-inch LG Nano cell NANO91 65-inch model will cost you around $3299 RRP. It’s a lot of television for the price, especially considering that the 65-inch LG CX OLED we tested costs about $5399.

Don’t get me wrong: LG’s OLED TVs will never let you down. It’ll always be at the Nano cell in a battle, but when it comes to how much you have to spend for a great screen, the Nano cell offers more value for less money.

Starting from Nano cell, undoubtedly one of the latest technologies currently being employed, by purchasing a nano cell TV, you will have a picture-bright display and exact colors that will certainly elevate your mood and heighten your interest in watching.

NanoCell TVs incorporate nanoparticles of approximately 1 nm into the panel instead of color films like QLED technology. These nanoparticles assist in creating stunning images and ensure color purity by filtering out dull colors.

Both Qled and Oled cannot complete the level of picture accuracy, Dolby audio, and local diminishing, which makes the nano cell perfectly suitable for home-theater feelings.

The nano cell screen can be turned on by dialing the thermostat or talking to the speakers. However, choosing Nano cell TVs has some drawbacks, including visuals getting washed out at the angles.

On the contrary, Oled doesn’t function on backlight; instead, it uses pixels to display. Each pixel is an excellent source of light and is highly dark black radiating an appropriate amount of light which ensures the vivid colors and top-notch image quality of the screen.

Additionally, the Qled screens offer brighter displays and better color quality than Led and Oled TVs, but they slack in deep blacks and contrast levels which certainly cannot be matched with the Oled TVs.

A single winner is difficult to point out in the hunt for QLED, OLED, and Nano cell. Therefore, choose Nano cell as it is the latest technology and can be connected with modern gadgets easing the level of watching and screening.