tag: flexible electronics

New Plastics Can Speed Flexible Printed Electronics Development
By Tony Flaim - 18 Apr, 2019 - Comments: 0

Substrates play a huge role when designing any type of device, including printed and flexible electronics. From its compatibility with your printing process or with the inks and materials you’re using, to its thermal properties, the choice of substrate can have a significant impact on the effectiveness and manufacturability of your product. However, substrate material capabilities tend to ... » read more

Power/Performance Bits: Feb. 19
By Jesse Allen - 19 Feb, 2019 - Comments: 0

Flexible energy harvesting rectenna Researchers from MIT, Universidad Politécnica de Madrid, University Carlos III of Madrid, Boston University, University of Southern California, and the Army Research Laboratory created a flexible rectenna capable of converting energy from Wi-Fi signals into electricity to power small devices and sensors. The device uses a flexible RF antenna to capture e... » read more

Power/Performance Bits: Nov. 27
By Jesse Allen - 27 Nov, 2018 - Comments: 0

Hybrid solar for hydrogen and electricity Researchers at the Lawrence Berkeley National Laboratory developed an artificial photosynthesis solar cell capable of both storing the sun's energy as hydrogen through water splitting and outputting electricity directly. The hybrid photoelectrochemical and voltaic (HPEV) cell gets around a limitation of other water splitting devices that shortchange... » read more

Manufacturing Bits: Sept. 18
By Mark LaPedus - 18 Sep, 2018 - Comments: 0

Flexible nanowires The University of Glasgow has developed a new contact-printing system that prints and embeds silicon nanowires into flexible surfaces. The technology enables new forms of flexible electronics. It can be used to develop low-power circuits in flexible substrates, such as plastic, paper and fabrics. Researchers from the University of Glasgow have developed a new contact-p... » read more

Power/Performance Bits: Aug. 28
By Jesse Allen - 28 Aug, 2018 - Comments: 0

Multilayer stretchable electronics Researchers at UC San Diego, the University of Electronic Science and Technology of China, and the Air Force Research Laboratory developed an approach to creating stacked, stretchable electronics with complex functionality. "Rigid electronics can offer a lot of functionality on a small footprint--they can easily be manufactured with as many as 50 layers of... » read more

Printed Electronics Materials
By Ed Sperling - 06 Aug, 2018 - Comments: 0

Brewer Science’s Dominic Miranda digs into printed electronics, why they’re becoming so important, what materials should be used, and how they can be targeted for specific applications in sensors and edge devices. https://youtu.be/tN2goxrDCqA » read more

Power/Performance Bits: June 26
By Jesse Allen - 26 Jun, 2018 - Comments: 0

Organic pigment for optoelectronics Researchers at Oregon State University are investigating xylindein, an organic pigment produced by fungi, to find low-cost, sustainable alternatives to silicon in electronic or optoelectronic applications where the high-performance capabilities of silicon aren't required. Xylindien is secreted by two wood-eating fungi in the Chlorociboria genus. Any wood ... » read more

Power/Performance Bits: Feb. 13
By Jesse Allen - 13 Feb, 2018 - Comments: 0

Silicon spintronics Engineers at the University of California, Riverside, developed new methods to detect signals from spintronic components made of low-cost metals and silicon. Spintronic devices generate little heat, use relatively minuscule amounts of electricity, and would require no energy to maintain data in memory. However, previously developed spintronic devices depend on complex struc... » read more

Power/Performance Bits: Jan. 30
By Jesse Allen - 30 Jan, 2018 - Comments: 0

Wavy display architecture Researchers at KAUST developed a new transistor architecture for flexible ultrahigh resolution devices aimed at boosting the performance of the display circuitry. Flat-panel displays use thin-film transistors, acting as switches, to control the electric current that activates individual pixels consisting of LEDs or liquid crystals. A higher field-effect mobility of... » read more

Power/Performance Bits: Jan. 9
By Jesse Allen - 09 Jan, 2018 - Comments: 0

Eel-inspired power Researchers at the University of Michigan, the University of Fribourg, and the University of California-San Diego developed soft power cells with the potential to power implanted medical devices. Made of hydrogel and salt, the soft cells form the first potentially biocompatible artificial electric organ that generates more than 100 volts at a low current, the team says, enou... » read more

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