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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2021
8 Oct 2021

The Hidden Potential of High Efficiency Solar Cells

One of the greatest challenges of solar cells is the Shockley-Queisser limit, the assumption that there is a fundamental limit to the amount of energy a solar cell can absorb and convert into usable energy.
7 Oct 2021

Competing Short-Wavelength Infra-Red Sensing Technologies

The widespread adoption of machine vision makes image sensors that can detect light outside the visible spectrum increasingly useful, since the aim is to augment human sight rather than duplicate it. For example, imaging in the short-wave infra-red (SWIR) spectral region, which spans from 1000 to 2000 nm, offers multiple benefits that can supplement conventional cameras.
7 Oct 2021

Manufacturing methods for IME and related approaches

The range of different manufacturing procedures that compete with IME creates a confusing landscape
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7 Oct 2021

Printed Sensor Deployment Enabled by Flexible Hybrid Electronics

Presentation given by Dr Matthew Dyson, Senior Technology Analyst at IDTechEx, at the International Conference on Flexible and Printed Electronics (ICFPE)
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6 Oct 2021

Solder Alternatives for Flexible and Integrated Electronics

Attaching electronic components such as integrated circuits and LEDs to substrates is an essential aspect of electronics manufacturing. While conventional lead-free solder excels at the task for conventional rigid PCBs, it is not so well suited for emerging applications that require components to be attached to flexible substrates or conformal surfaces.
5 Oct 2021

J.A.M.E.S.

J.A.M.E.S., standing for Jetted Additively Manufactured Electronics Sources, is a joint venture between Nano Dimension and Hensoldt. It aims to establish an electronic designers community for 3D printed electronics. IDTechEx heard from JAMES at the Nano Dimension AME Academy in September 2021.
5 Oct 2021

New Class of Human-Powered Bioelectronics

A team of bioengineers has invented a novel soft and flexible self-powered bioelectronic device. The technology converts human body motions — from bending an elbow to subtle movements such as a pulse on one's wrist — into electricity that could be used to power wearable and implantable diagnostic sensors.
5 Oct 2021

GM announces Solar & Printed Electronics partnership with SCIPRIOS

GM has announced that it is joining forces with SCIPRIOS GmbH to provide tailor-made, cutting-edge R&D coating solutions for both scientific research and industrial production in all areas of printed electronics.
4 Oct 2021

Optical Sensor Converts Light to Digital Signals

Scientists develop a compact and robust optical sensor that can convert light to digital signals for use in flexible electronics.
4 Oct 2021

Tracking Muscle Activity with Clothes on Your Back

Bioelectrical sensors on the skin can be used to measure electrical signals in the body, like heart activity and muscle contraction. While that provides valuable information for clinicians, current bioelectrical sensor technology can be ineffective, uncomfortable, expensive, and difficult to manufacture.
1 Oct 2021

Elantas

Elantas hosted a virtual 'Printed Electronics Day' in September 2021, in which it outlined its portfolio of materials printed electronic and the applications in which it sees the most promise.
1 Oct 2021

OE-A (Organic and Printed Electronics Assocation)

The OE-A is a German trade/research association that aims to promote and support the development of organic and printed electronics. CEO Klaus Hecker presented at the virtual 'Elantas Printed Electronics' Day in late September 2019.
1 Oct 2021

Electronic Glove and Gaming Make Rehabilitation Fun

After a hand injury, it is important to follow a rehabilitation programme to ensure a quick recovery and re-establish strength and function of the hand. The material belongs to the CareGum family. This particular one is thermo-electric, based on silk and has a number of features that makes it versatile and excellent as a wearable sensor on the human body.
29 Sep 2021

Smart Textiles Powered by Body Movement for Remote Health Monitoring

Absorbing the movement from the body, these super-smart textiles will not only power electronic components, but also act as self-powered functional sensors that are able to accurately sense the movements of targeted body parts.
28 Sep 2021

Brewer Science

Brewer Science is best known for production of advanced materials, primarily for the semiconductor manufacturing industry. It also produces a wide range of printed sensors, which this profile focuses on. These are capable of detecting a variety of parameters such as temperature, degree of flex and soluble ion concentration. IDTechEx caught up with R&D Director Dr Adam Scott to find out more.
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28 Sep 2021

Nanowear

IDTechEx interviewed Venk Varadan, Co-Founder and CEO of Nanowear. They are developing a new type of nanotechnology-based sensing material in textile, with applications in AI-based remote diagnostics applications.
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27 Sep 2021

Webinar: Commercially Compelling Printed/Flexible Sensor Innovations

Thursday 30 September 2021 - Emerging applications for capacitive sensors, such as leak detection; Spatially resolved temperature sensors, for monitoring EV batteries and electronics, that can be combined with other functionalities; and more! Will conclude with Q&A for pre-submitted questions
27 Sep 2021

Materials Informatics: Industry Activity Steps Up to Accelerate R&D

The ability to develop new materials and bring them to market ever faster is an obvious goal. There continues to be countless developments that improve chemistry and materials science R&D, but perhaps none represent the same paradigm shift that materials informatics offers. Major industry players are waking up to this as the technology matures.
27 Sep 2021

Swapping Silver for Copper to Break Solar Panel Efficiency Record

SunDrive Solar received certification from the Institute for Solar Energy Research Hamelin that their commercially-sized silicon solar cell had achieved a 25.54% efficiency. This efficiency surpassed the previous world record of 25.26%, held by LONGi Solar, the world's leading manufacturer of mono-crystalline solar modules. Silicon is currently the dominant solar cell technology, and this technology comprised 95 per cent of all solar modules installed in 2020.
27 Sep 2021

3D Nano-inks Push Industry Boundaries

A new, 3D-printable polymer nanocomposite ink has incredible properties — and many applications in aerospace, medicine and electronics. Mechanical engineering researchers have created a way to make a 3D-printable nanocomposite polymeric ink that uses carbon nanotubes — known for their high tensile strength and lightness. This revolutionary ink could replace epoxies — and understanding why its properties are so fantastic is a first step toward its mass use.