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
28 Mar 2022
InnoLAE 2022: Materials, Manufacturing Methods and Applications
This premium article delves into the InnoLAE conference, held virtually from 22nd to 24th February 2022. It will look into some of the most interesting and commercially relevant presentations in materials, technologies and manufacturing methods, and applications.
Included are:
28 Mar 2022
3D Electronics Enables Greater Integration
While 3D electronics has long been used for adding antennas and simple conductive interconnects to the surface of 3D injection-molded plastic objects, more complex circuits are increasingly being added onto surfaces made from a variety of materials by utilizing new techniques.
28 Mar 2022
Scalable Deposition Methods for Thin Film Photovoltaics
This premium article delves into scalable deposition methods for thin film photovoltaics. It introduces thin film photovoltaics and explores different deposition techniques, including sputtering, chemical vapour deposition, inkjet printing, and more.
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28 Mar 2022
Simply Printing High-Performance Perovskite-Based Transistors
A research team has improved the performance of a p-type semiconductor transistor using inorganic metal halide perovskite. One of the biggest advantages of the new technology is that it enables solution-processed perovskite transistors to be simply printed as semiconductor-like circuits.
27 Mar 2022
Status and Market Potential of Metallization Methods of 3D Electronics
3D Electronics metallization methods mapped.
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24 Mar 2022
Low-Cost Sensing Assists Climate Adaptation
'What gets measured gets managed' is a well-known adage in business, but could it also be applied to mitigating the effects of climate change? The recently published IPCC (Intergovernmental Panel on Climate Change) report emphasizes the importance of adaptation alongside emission reduction.
24 Mar 2022
Energy Materials Corporation
Energy Materials Corporation is an American start-up company based in Rochester, New York. The company was founded in 2010 and is working on developing scalable roll-to-roll manufacturing methods of perovskites solar cells.
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23 Mar 2022
Design Tweak Helps Prevent Malfunction in Yarns That Store Energy
Researchers have found a way to prevent electrical malfunctions in yarns designed to store electrical energy. Ultimately, the findings could help advance the development of "smart textiles" that would capture energy from the wearer's movements and power sensors and wearable electronics.
23 Mar 2022
PragmatIC Semiconductor Unveils Plans for New UK Site
PragmatIC Semiconductor is proud to unveil PragmatIC Park, Durham, UK as the site for installation of its second FlexLogIC fabrication line producing ultra-low-cost flexible integrated circuits.
21 Mar 2022
Tiny Battery-Free Sensors Float in The Wind like Dandelion Seeds
Wireless sensors can monitor how temperature, humidity or other environmental conditions vary across large swaths of land, such as farms or forests. These tools could provide unique insights for a variety of applications, including digital agriculture and monitoring climate change.
21 Mar 2022
A Fabric That Hears Your Heart Beat
Inspired by the human ear, a new acoustic fabric converts audible sounds into electrical signals.
18 Mar 2022
3D Electronics/Additive Electronics 2022-2032
Forecasts taken from IDTechEx report "3D Electronics/Additive Electronics 2022-2032"
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18 Mar 2022
Saule Technologies
Saule Technologies is a Polish company founded in 2014. The company works on the development of flexible perovskite solar cells for applications such as indoor energy harvesting, Internet of Things, and lightweight photovoltaics for building-integration. This profile is based on an interview with Dr. Dávid Forgács, the director of knowledge management.
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17 Mar 2022
Materic: Advanced Materials
Materic is an advanced materials development and manufacturing firm. Its range of capabilities encompasses silver nanowire manufacture and purification, nanofibers, textile treatments, and more. The company applies the principles of a venture studio to accelerate the development timelines of advanced materials solutions. Materic's 3D printing operations are covered in another profile.
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17 Mar 2022
Solutions to Biggest Hurdle for Solar Cell Technology
Materials scientists have discovered the major reason why perovskite solar cells — which show great promise for improved energy-conversion efficiency — degrade in sunlight, causing their performance to suffer over time. The team successfully demonstrated a simple manufacturing adjustment to fix the cause of the degradation, clearing the biggest hurdle toward the widespread adoption of the thin-film solar cell technology.
17 Mar 2022
Event Summary: TechBlick Conference
This premium article looks into the TechBlick conference, held virtually on 9th March 2022. The event focused on printed and hybrid electronics, with presentations on materials, methods, and applications, which are explored in this article. It will delve into presentations from companies including Panasonic Electronic Materials, Holst Centre, and Neotech AMT, with discussions surrounding developments in printing methods, demonstrations of smart packaging for pharmaceuticals, and more.
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17 Mar 2022
E Ink Joins The Climate Pledge, Commitment to Net Zero Carbon By 2040
E Ink announced they have joined the Climate Pledge, co-founded by Amazon to commit to becoming net-zero carbon by 2040, and are the first display company to join. In December 2021, E Ink announced their pledge to reach net zero carbon emissions by 2040. E Ink plans to be RE 10 by the end of 2022, and would be the first display company to achieve RE 10.
16 Mar 2022
MWC 2022: Trends in futuristic applications and network infrastructure
The MWC event in Barcelona earlier this month gathered more than 60,000 mobile experts from all around the world. From digital applications to network infrastructure, IDTechEx was there to cover major developments in the industry! Here are some of the key trends we observed at MWC2022 Barcelona.
16 Mar 2022
New Brain-Computer Interface With a Flexible Backing
Engineering researchers have invented an advanced brain-computer interface with a flexible and moldable backing and penetrating microneedles. Adding a flexible backing to this kind of brain-computer interface allows the device to more evenly conform to the brain's complex curved surface and to more uniformly distribute the microneedles that pierce the cortex. The microneedles, which are 10 times thinner than the human hair, protrude from the flexible backing, penetrate the surface of the brain tissue without piercing surface venules, and record signals from nearby nerve cells evenly across a wide area of the cortex.
16 Mar 2022
An International Standard for Measuring the Flatness of Graphene
Graphene is often portrayed as the ultimate conductor, thanks to its flexibility and to its excellent conductivity. However, research has shown that the electrical and the structural quality of graphene are intimately connected, and that nanoscale lattice deformations caused by surface corrugations limit the mobility of electrons in graphene.
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