Nanosolar has a thin - film PV production tool that «prints» PV panels by depositing nanopartical ink on rolls
of flexible substrate.
Not exact matches
In the process
of manufacturing
flexible packaging the print will be buried between the outside
substrate and the rest
of the structure, offering scuff and chemical resistance.
Designed for both folding carton and
flexible film packaging applications where high press performance, color vibrancy and regulatory compliance are critical, SunCure AccuFlex UV flexo inks are said to offer good adhesion to a variety
of film
substrates, provide great flexo viscosity stability...
From high - quality snack and specialty foods packaging to dry cleaner bags,
flexible packaging printers face a wide spectrum
of substrates and quality expectations.
Because this material will stretch to match any distortions, a
flexible substrate, such as a plastic, can be used to make the backing material
of the display.
The micrometer - scale device consists
of a
flexible aluminum plate that sits atop a silicon
substrate.
Thus devices can be sprayed — from a computer - controlled robotic nozzle — onto virtually any kind
of substrate, including large - area sheets
of flexible plastic.
A
flexible type
of substrate material is necessary for fabrication that uses a printing process.
«Electrically conductive polymers are used in OLEDs, for example, which can also be manufactured on
flexible substrates,» explains Tobias Kraus, Head
of the research group Structure Formation at INM.
«Most
of the
substrates we print on are
flexible substrates.»
Although a substantial amount
of research has been conducted on different types
of memory chips and materials, there are still signi?cant challenges in fabricating high performance memory chips on soft
substrates that are
flexible, without sacri?cing performance.
The team then tested the feasibility
of their analytical results by fabricating a PVDF - based vibrational harvester on a
flexible aluminum
substrate.
Further improvements to this experimental process could lead to the development
of inexpensive, high - performance electronics built on transparent
substrates such as glass and, eventually, clear and
flexible plastics.
In addition, it may be used as an advanced
substrate and for encapsulation
of oxygen - sensitive organic electronics in
flexible displays.
They found that the walls
of one
of their derivatives, p -(4 -(2 - hydroxyethylpiperidinomethyl)-RRB- calix (4) arene, had the surprising property
of being
flexible enough to bind a
substrate molecule in two different states.
Meanwhile, the rapidly expanding field
of flexible electronics has made substantial strides, and complex circuits can now be produced on soft
substrates.
Instead
of printing with normal ink, electrically - functional electronic ink is printed on
flexible, thin films (so - called
substrates).
Even more, because
of its properties, it can be easily integrated on
flexible substrates as well as CMOS - type integrated circuits.»
«The ultimate goal is to use these atomic - layer semiconducting thin films to create devices that are extremely
flexible, but to do that we need to transfer the thin films from the
substrate we used to make it to a
flexible substrate,» says Cao, who is senior author
of a paper on the new transfer technique.
Although a substantial amount
of research has been conducted on different types
of memory chips and materials, there are still significant challenges in fabricating high performance memory chips on soft
substrates that are
flexible, without sacrificing performance.
«We can directly create piezoelectric materials
of the shape we want, where we want them, on
flexible substrates for use in energy harvesting and other applications,» said Nazanin Bassiri - Gharb, co-author
of the paper and an assistant professor in the School
of Mechanical Engineering at the Georgia Institute
of Technology.
Simple fabrication process
of flexible based micro-cone array (MCA) structure textured on transparent polymer
substrate was successfully demonstrated in this work for enhancing the photovoltaic performance.
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.
Additionally, the reduction
of processing temperatures is
of vital interest for
flexible substrates.
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· 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.
Feature E-ink Flex is replacement
of a glass
substrate on polymeric therefore the screen becomes
flexible and not so strongly is afraid
of blows and deformations, as usual e-ink 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
Mobius e ink has a
substrate of flexible plastic, not glass.
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.
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 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.
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.
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.
He added «Plastic Logic wanted to retain the advantage
of working with
flexible substrates, even though it is not shown off to great effect in the fixed - frame Que e-reader» He ended with the statement «that finding color filters that adhere to a plastic,
flexible substrate, and are reliable under repeated flexing was not trivial».
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.
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.
The company's current
flexible OLEDs are made in a 5.5 - Gen line with a capacity
of only 8,000
substrates per month.
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.
The display is currently made on glass but could easily be made on
flexible substrates, says Andre Arsenault, coauthor
of the paper and cofounder
of Opalux.
The display technology used in the product's creation makes use
of a rugged, metal - foil e-paper display and a
flexible, stainless - steel
substrate for silicon thin - film - transistors (TFT).
The panel, a 1024 x 768 monochrome sheet, can be bent up to 40 - degrees without breaking; in addition, because LG Display has used a
flexible plastic
substrate rather than the more traditional glass, it's less than half the weight
of a traditional epaper panel.
· A curved screen OLED display 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 Edge Display areas that can be viewed and controlled from both the front or the sides.
A curved screen OLED display 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 edge display areas that can be viewed and controlled from both the front or the sides.
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.
While the first wave
of OLED panels were built using glass
substrates, the desire for more interesting form factors has seen this layer move over to use more
flexible plastic components.
The company has since incorporated the technology into devices like the Galaxy S6 Edge, Galaxy S6 Edge + and the recently - launched Galaxy S7 Edge, all
of which come with OLED displays that are manufactured on a
flexible plastic
substrate, allowing for the curved edges along both sides.