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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2022
4 Jan 2022
Fitness Sensor Warns When You're at Your Limits
Ultrathin nanomaterials, known as MXenes, are poised to make it easier to monitor a person's well-being by analyzing their perspiration. While they share a similar two-dimensional nature to graphene, MXenes are composed of nontoxic metals, such as titanium, in combination with carbon or nitrogen atoms. With naturally high conductivity and strong surface charges, MXenes are attractive candidates for biosensors that can detect small changes to chemical concentrations.
3 Jan 2022
Self Healing Perovskite Solar Cell
These solar cells have shown amazing humidity stability and self-healing behavior after 500 hours of operation, according to the researchers.
2021
31 Dec 2021
LG Display Unveils OLED EX
Deuterium compounds are used to make highly efficient organic light-emitting diodes that emit stronger light. LG Display has successfully converted the hydrogen elements present in organic light emitting elements into stable deuterium and managed to apply the compounds to OLED EX for the first time.
29 Dec 2021
Fabrication of Flexible Electronics Improved
Researchers have developed a technique to improve the flexibility of ultra-thin electronics, such as those used in bendable devices or clothing. Published in Science Advances, the study details the use of water vapor plasma to directly bond gold electrodes fixed onto separate ultra-thin polymer films, without needing adhesives or high temperatures.
28 Dec 2021
Shellac for Printed Circuits
More precise, faster, cheaper: Researchers all over the world have been working for years on producing electrical circuits using additive processes such as robotic 3-printing (so-called robocasting) - with great success, but this is now becoming a problem. The metal particles that make such "inks" electrically conductive are exacerbating the problem of electronic waste.
28 Dec 2021
Phosphorene Nanoribbons Live up to Hype in First Demonstration
Researchers have incorporated phosphorene nanoribbons into new types of solar cells, dramatically improving their efficiency. Phosphorene nanoribbons are ribbon-like strands of the 2D material phosphorous, which, similar to graphene, are made of single-atom-thick layers of atoms. PNRs were first produced in 2019, and hundreds of theoretical studies have predicted how their properties could enhance all kinds of devices, including batteries, biomedical sensors, and quantum computers.
24 Dec 2021
World's Longest Flexible Fibre Battery
Researchers have developed a rechargeable lithium-ion battery in the form of an ultra-long fiber that could be woven into fabrics. The battery could enable a wide variety of wearable electronic devices, and might even be used to make 3D-printed batteries in virtually any shape.
22 Dec 2021
Platform for Controlled Design of Printed Electronics with 2D Material
Scientists have shown how electricity is transported in printed 2D materials, paving the way for design of flexible devices for healthcare and beyond.
21 Dec 2021
Perovskite Solar Cell with Ultra Long Stability
Perovskites are the great hope for further increasing the efficiency of solar modules in the future. Until now, their short service life has been considered the biggest hurdle to their practical use, but this could soon change.
20 Dec 2021
Soft Semiconductors that Stretch Like Human Skin
Semiconductors are moving away from rigid substrates, which are cut or formed into thin discs or wafers, to more flexible plastic material and even paper thanks to new material and fabrication discoveries. The trend toward more flexible substrates has led to fabrication of numerous devices, from light-emitting diodes to solar cells and transistors.
17 Dec 2021
Stable Material for More Efficient Solar Cells
Researchers have developed a new process for producing stable perovskite materials to create more efficient solar cells.
15 Dec 2021
IO-Tech
IoTech wins awards for multi-material additive manufacturing technology at Productronica Trade Show in Germany in November 2021.
15 Dec 2021
Batteries of the Future Could be Paper-Thin and Biodegradable
Scientists have developed paper-thin biodegradable zinc batteries that could one day become an environmentally sustainable option for powering flexible and wearable electronic systems.
The zinc batteries are made up of electrodes screen-printed on to both sides of a piece of cellulose paper that has been reinforced with hydrogel.
14 Dec 2021
CEA-LITEN
CEA-LITEN is part of the French research center CEA, based in Grenoble. It focuses on energy related technologies - this includes printed/flexible electronics and 3D printing. This profile is based on a visit by IDTechEx on 1 December 2021.
14 Dec 2021
CEA-LETI
CEA-LETI is the main department of the French research center CEA. Based primarily in Grenoble, it covers many aspects of semiconductor manufacturing, and has recently extended its scope to cover hybrid electronics. IDTechEx visited CEA-LETI on 1 December 2021
14 Dec 2021
Graphene for Solar Power
By 2050, the European Union aims to be climate neutral. In pursuit of this goal, the first half of 2020 saw renewables — including solar, hydro, wind and bioenergy — produce more electricity than fossil fuels in the EU.
13 Dec 2021
Flexible Hybrid Electronics & Emerging Image Sensor Technologies
Presentation given by IDTechEx Senior Technology Analyst Dr Matthew Dyson at CEA LETI in Grenoble, France on December 1st 2021.
Included are:
13 Dec 2021
Microfountain Pen Draws Minute Patterns for Live Cells, Circuits
Advances in intuitive microwriting devices that can print microstructures could pattern electric circuits and more. The setup, featuring a robot arm to hold the micropen, deposits ink onto the surface, much like writing by hand with a fountain pen.
13 Dec 2021
Stretchy, Washable Battery Brings Wearable Devices Closer to Reality
Researchers have created what could be the first battery that is both flexible and washable. It works even when twisted or stretched to twice its normal length, or after being tossed in the laundry.
9 Dec 2021
Smart Buildings: Another Frontier for the Digital Revolution
Smart buildings aim to bring digital technologies into the fabric of the building, rather than just to objects within it. They will utilize a wide range of emerging technologies, such as semi-transparent photovoltaics on windows, moisture sensors for leak detection, and printed heaters with wall panels.
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