Printed, Flexible and Organic Electronics

Printed, Flexible and Organic Electronics

Printed Electronics, being thin film silicon or inorganic or organic semiconductors, can be used to form Thin Film Transistor Circuits (TFTCs), such as replacing the functionality of simple silicon chips. TFTCs also employ thin film conductors and dielectrics and the ultimate objective is to make many different components at the same time - such as displays, batteries, sensors, microphones etc using the same materials or at least the same deposition techniques thus saving cost and improving reliability. Some TFTCs will be capable of covering large areas to affordably form electronic billboards, smart shelves and so on. They will be lightweight, rugged and mechanically flexible. Often they will be made by rapid, high-volume reel-to-reel processing even forming a part of regular printing processes for graphics. These circuits will be cheap enough to permit electronics where envisaged silicon chips are always or almost always too expensive, where multiple components and needed, and where silicon is impracticle (e.g. not flexible, brittle, thick etc).
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Printed, Flexible and Organic Electronics
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2020
23 Mar 2020

LCD display industry: assessment of current market status & key trends

LCD display industry: an assessment of current market status and key trends
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20 Mar 2020

ReMarkable's Redesigned E-Paper Tablet

reMarkable 2 is the world's thinnest tablet and it features an E Ink display so paper-like it's hard to tell the difference.
19 Mar 2020

Wiliot

Wiliot are developing a battery-free sensor/ID tag that is capable of transmitting Bluetooth signals. It harvests its energy ambient EM radiation via a printed antennae and a bare chip. Due to its combination of capability, simplicity and cloud integration this could be the technology that finally makes the 'Internet of Things' a reality...
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19 Mar 2020

Graphene, Perovskites and Silicon, an Ideal Tandem for Solar Cells

Laws of physics limit the maximum efficiency of silicon solar cells to 32%. For that reason, scientists have spent decades trying to come up with other alternatives, such as III-V and perovskites. However, the latter present several manufacturing challenges, and scaling up the production of solar panels is a key step towards success.
19 Mar 2020

Stretchable and Highly Conductive Textiles

TC Printing technologies LLC is an R&D center that builds novel solutions in printed electronics area. Rely on our innovative materials, printing techniques and huge experience to fulfil sophisticated tasks from our customers. Their cooperation with leading Russian universities allows them to develop and produce functional pastes and customized printed sensors that suit our customers' specific demands. TC Printing technologies is a member of PrintoCent Industry Cluster joining leading innovative manufacturers of printed electronics. To sum up, we provide R&D works on customers' demands and offer solutions to resolve challenging scientific tasks.
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18 Mar 2020

Gas Sensor Innovations Enable New Markets to Come

Microelectromechanical systems (MEMS) and screen-printing techniques open the door to miniaturised gas sensors and enable the integration of such gas sensors into many consumer devices, such as mobile phones and wearable devices.
18 Mar 2020

Graphene Solar Heating Film

Researchers have developed a highly efficient solar absorbing film that absorbs sunlight with minimal heat loss and rapidly heats up to 83°C in an open environment.
18 Mar 2020

Corning

I caught up with Corning on the topic of thin flexible glass. The first I heard about this project was during a 2010 demonstration of the rollable glass at SID. It has therefore been a long journey already.
18 Mar 2020

Chasm

Chasm develops and manufactures carbon nanotube hybrids, which are a combination of carbon nanotubes (CNTs) plus another material to make an advanced material with properties better than either material alone.
17 Mar 2020

Wearable Powered by Body Motion Using Stretchable Carbon Nanotubes

Wearable devices, like smartwatches and activity trackers, have numerous useful functions including information display and biological information sensing. More than half a billion are already being used worldwide, in a wide range of applications such as sports, healthcare, and the human Internet of Things.
17 Mar 2020

Powering Devices Goes Skin Deep

Soft and flexible materials can be used to ultrasonically charge bioelectronic implants, which could help to reduce the need for surgical treatment.
17 Mar 2020

Technology Development Toward Multilayered Flexible Hybrid Electronics

Flexible Hybrid Electronics have been used to fabricate multi-layer circuits that are conformable, low-cost and suitable for a wide variety of applications, from smart packaging, connected healthcare, intelligent industrials to efficient infrastructure.
16 Mar 2020

Research Boosts Stability of Perovskites, Helps Silicon Solar Cells

A change in chemical composition enabled scientists to boost the longevity and efficiency of a perovskite solar cell. The new formula enabled the solar cell to resist a stability problem that has so far thwarted the commercialization of perovskites. The problem is known as light-induced phase-segregation, which occurs when the alloys that make up the solar cells break down under exposure to continuous light.
16 Mar 2020

E-Paper Displays Used in Santorini and Syros

Travellers on Santorini and Syros will benefit from real-time passenger information on solar powered e-paper bus stop displays as a result of smart city projects led by Papercast partner, AMCO Inspired Technologies.
16 Mar 2020

Printing Electronic Features into Paper Based Products

PRISMADE LABS is the culmination of more than 10 years of pioneering work in the field of mass printed, electronic functionalities. With the brand-new PRISMA ID technology PRISMADE LABS have solved the puzzle of printed and secure identification. In 2017 they have partnered with edding, a global leader and synonym for creative and industrial markers. Together, they are developing unique technologies, inks and materials that will send your handwriting to the cloud. With our team of print, software, and project innovation engineers we work closely with our customers to connect their need for anti-counterfeiting, brand communication or track & trace with the digital services that consumers are expecting today.
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13 Mar 2020

Micron Thin Coating Waterproofs Electronic Device

HZO has set the world standard in technology solutions that protect electronics from corrosion and extended liquid immersion. A durable thin film is applied directly to the components of a device, creating a physical barrier between the vital circuitry and any kind of corrosive liquid. The company's advanced nanotechnology provides innovative liquid protection from the inside out, and our patent-protected materials, process and equipment provide an end-to-end solution that allows flexibility for manufacturers to develop new product features and functionality, while giving end-users the freedom to do more with the electronic devices they rely on.
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13 Mar 2020

New Material Could Turn Clothing into a Health Monitor

Researchers are reporting a new material, pliable enough to be woven into fabric but imbued with sensing capabilities that could serve as an early warning system for injury or illness.
13 Mar 2020

Ink-based conformable package-level EMI shielding

Ink-based conformable package-level EMI shielding: a megatrend or supplier push? In this article we consider the trend towards ink-based conformable package-level EMI shielding. The more general trend towards conformable package-level shielding is a major one, and is already in full swing. Indeed, many products have already adopted such coating, replacing the established bulky lid-based shields.
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12 Mar 2020

Roll-Up TVs and Bendable Smartphones: Choices for Flexible Electronics

A future with foldable, bendable, flexible and ultrathin electronics is fast becoming our present. The materials responsible for these consumer goods are typically polymers — plastics — that conduct electricity. To better understand this promising class of substances, scientists developed a technique that uses light to quickly and accurately test materials' conductivity — and potentially reveal behavior that other methods could not.
12 Mar 2020

Integrated Device Printed Directly Onto Label

CPI's Printable Electronics Centre is a design, development and prototyping facility. We provide support in bringing new printable electronics products and processes to market quickly by offering facilities and expertise that help reduce our clients' level of R&D risk and capital investment. Taking advantage of our state of the art deposition, patterning and printing equipment leads to faster, more efficient development and production enabling clients to enter new markets quickly and with minimal risk. CPI can accelerate new product development by providing access to proven performance conducting, semiconductor, resistive materials and inks.
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