Sentences with phrase «plastic substrates»
While glass is fixed and rigid, plastic substrates can be more easily formed into new shapes, even if the end result doesn't end up being highly flexible.
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The ultra-thin, ultra-light flexible POLED display and curved OLED panel are built on plastic substrates instead of glass, giving LG G Flex its unique shape and durability.
The use of plastic substrates has already allowed Samsung and LG to produce curved OLED panels, and the next evolution will be increasing this flexibility and panel durability to survive the stresses of repeated bending and flexing.
Plastic Logic's display technology, first developed at Cambridge University, uses highresolution transistor arrays on flexible plastic substrates, manufactured at a low temperature.
Flexible electronic paper uses plastic substrates and plastic electronics for the display backplane.
Unlike typical glass silicon displays, the flexible plastic substrates used in the reader allow the device to be both thinner, lighter and rugged.
The technology was first developed by the Cambridge University, uses high - resolution transistor arrays on flexible plastic substrates, manufactured at low temperature.
E-Ink Chairman Frank Ko said in recent interview that his company is focusing R&D on flexible display based on plastic substrates instead of glass, at looking at IoT applications such as e-paper tags for retail and logistics in 2016, Ko said.
But the technology is rapidly moving to plastic substrates that will make e-paper almost as flexible as... paper.
The sophistication and flexibility of the patterning procedures, high level of integration on plastic substrates, large area coverage, and good performance of the transistors are all important features of this work.
The facility comprises of a 3800m ² clean room area, for backplane processing and test and assembly processes as well as a pilot production line for large area, smart, flexible electronic applications on plastic substrates,» says the company's CEO Tim Burne.
Using a technique known as thermochemical nanolithography (TCNL), researchers have developed a new way to fabricate nanometer - scale ferroelectric structures directly on flexible plastic substrates that would be unable to withstand the processing temperatures normally required to create such nanostructures.
For indoor applications, thin flexible devices are particularly interesting because they can be seamlessy integrated on surfaces, even curved ones, although fabrication is complicated by having to maintain processing temperatures below 150 C to avoid deformation of plastic substrates.
Flexible plastic substrates, for example, can not be used because they are damaged by high temperatures.
A 3 - D bioprinter was used to deposit arrays of gel precursor droplets onto plastic substrates, which were then cured with a UV light to convert them into solid gels.
Conventional semiconductors are built using silicon - based substrates (the material upon which semiconductor devices are fabricated), but metal - insulator electronics can be made atop less pricey glass, metal or plastic substrates.
· A state - of - the - art OLED display that is manufactured on a flexible plastic substrate.
What is especially news worthy and significant is that the performance of the OLED display on a flexible plastic substrate for the Galaxy S6 edge + is now essentially the same as on a traditional glass substrate for the Galaxy Note 5, even at 500 + pixels per inch and 2560x1440 resolution.
They are made on a flexible plastic substrate, so they can be used to make curved displays.
The Galaxy S6 edge + display is similar to the Note 5, with the same screen size and resolution, but it has a curved screen OLED display that is manufactured on a flexible plastic substrate so that it can bend around the corners on both the sides of the phone to provide two display areas that can be viewed and controlled from both the front or the sides, which is especially useful for viewing notifications and scrolling news items, and also as a dim night clock on a beside table.
that is manufactured on a flexible plastic substrate so that it can bend around corners on both sides of the phone to provide two curved
The Galaxy S6 edge + is actually a flexible OLED display manufactured on a flexible plastic substrate rather than on a traditional perfectly flat and hard screen like almost all other OLED (and LCD) displays.
E-Ink Carta 1.2 technology (high contrast and short response time) will be able available in a plastic substrate or with a glass substrate.
I suppose that the extra thin - ness might be also helped, if they have somehow moved Carta or its equivalent, to a plastic substrate, like their Mobius screens, potentially reducing weight, even more.
is similar, but its OLED display is made using a new flexible plastic substrate, so that it can bend around on both sides of the phone to provide two new curved display areas that can be viewed from both the front or the sides, and also when the phone is placed face down.
Plus it has a plastic substrate so it's very thin and it's also flexible so it won't easily break.
The Galaxy Note Edge display is similar, but it has an OLED display that is manufactured on a flexible plastic substrate so that it can bend around the side of the phone to provide a second display area that can be viewed from both the front or the side.
The Galaxy Note Edge is actually a flexible OLED display manufactured on a flexible plastic substrate rather than on a hard glass substrate like almost all other OLED (and LCD) displays.
The Galaxy S7 Edge display is similar to the Galaxy S7, but it has a curved screen OLED display that is manufactured on a flexible plastic substrate so that it can bend around the corners on both the sides of the phone to provide two display areas that can be viewed and controlled from both the front or the sides, which is especially useful for viewing notifications and scrolling news items.
What is especially news worthy and significant is that the performance of the OLED display on a flexible plastic substrate for the Galaxy S7 Edge is now essentially the same as on a traditional glass substrate for the Galaxy S7, even at 500 + pixels per inch and 2560x1440 resolution.
While LCDs can now be manufactured with curved glass screens, OLEDs can be manufactured with entirely flexible screens on a plastic substrate.
One of the benefits of the plastic substrate vs. the glass is that it is much more resilient and less prone to breaking when dropped or grazed against a sharp object.
In 2012 LG first entered the flexible e-paper arena and developed a screen that was crafted from a flexible plastic substrate, the display measuring 0.03 inches (0.7 millimeters) thick and weighs 0.5 ounces (13 grams), making it one - third slimmer and half the weight of currently available glass EPD devices.
It uses a solid plastic substrate that allows the display to be bended in varying degrees.
The screen is crafted from a flexible plastic substrate, the display measuring 0.03 inches (0.7 millimeters) thick and weighs 0.5 ounces (13 grams), making it one - third slimmer and half the weight of currently available glass EPD devices.
LG's new plastic EPD, claimed to be the world's first in mass production, takes the form of a plastic substrate that is 0.7 millimeters (0.027 in) thick, about 2/3 the thickness of glass EPD devices.
«The ruggedness and lightweight characteristics of Mobius are due to the TFT being constructed on a plastic substrate rather than traditional glass,» the company said.
The use of a plastic substrate instead of glass enables completely new applications and products.
short video about that ITO can't fix on plastic substrate but graphene do and therefore is graphene also suitable as elctrode material in capacitive displays.
What's supposed to be so cool about Sony's electronic paper is that it uses a plastic substrate instead of glass so that it is flexible, durable, and can be rolled up and bent.
To build e-paper, several different technologies exist, some using plastic substrate and electronics so that the display is flexible.
As with electrophoretic technology, e-paper displays built using Liquavista's technology could be manufactured on a flexible plastic substrate, making them thinner and lighter.
This display uses a plastic substrate which makes the display flexible and also very durable.
Newer technology is always more expensive, and Mobius displays use a plastic substrate so they are a lot more durable and lightweight than traditional glass displays.
It will use nozzles to deposit tiny liquid droplets of semiconductor polymer materials on a plastic substrate to form circuits in much the same way that inkjets print type on paper.
It has a plastic substrate, and can be rolled up like a newspaper.
Usually, E-paper has used glass substrate in the past but this new technology uses plastic substrate.
Glass substrate is heavier and more prone to damage than plastic substrate, which is much lighter and can also be bent.
Electronic paper with plastic substrate is also very difficult to break even when you drop it, and can even be rolled up like real paper.
It has a screen with a plastic substrate that is very light and durable, but the drawback is there is no frontlight or capacitive touchscreen, just stylus touch only.