New Projects Create a Foundation for Next-Gen Flexible Electronics
By Josh Brown – Four projects set to move forward at the Georgia Institute of Technology aim to lay the groundwork for manufacturing next-generation flexible electronics, which have the potential to make an impact on industries ranging from health care to defense.
Researchers at Georgia Tech are partnering with Boeing, Hewlett Packard Enterprises, General Electric, and DuPont as well other research institutions such as Binghamton University and Stanford University on the projects.
Flexible electronics are circuits and systems that can be bent, folded, stretched or conformed without losing their functionality. The systems are often created using machines that can print components such as logic, memory, sensors, batteries, antennas, and various passives using conductive ink on flexible surfaces. Combined with low-cost manufacturing processes, flexible hybrid electronics unlock new product possibilities for a wide range of electronics used in the health care, consumer products, automotive, aerospace, energy and defense sectors.
“Flexible electronics will make possible new products that will help us address problems associated with food supply, clean water, clean energy, health, infrastructure, and safety and security,” said Suresh Sitaraman, a professor in the George W. Woodruff School of Mechanical Engineering, who is leading Georgia Tech’s flexible electronics activities. more> https://goo.gl/qjx3UT
- CauteryGuard Wins the InVenture Prize, Laura Diamond
- Empathy from the Sick May be Critical to Halting Disease Outbreaks, John Toon
- China’s Severe Winter Haze Tied to Climate Change, John Toon
- From the Butterfly’s Wings to the Tornado: Predicting Turbulence, Ben Brumfield
- Radiation from Nearby Galaxies Helped Fuel First Monster Black Holes, Says Study, Jason Maderer
- Stem Cell Treatment May Restore Vision to Patients with Damaged Corneas, Charlene Betourney
- New Nanofiber Marks Important Step In Next Generation Battery and Water Electrolysis Development, Josh Brown
- Understanding What’s Happening Inside Liquid Droplets, John Toon
- Brake Dust May Cause More Problems Than Blackened Wheel Covers, Josh Brown
- Study Reveals Complication Predictors in Children with Crohn’s Disease, Crohn’s & Colitis Foundation
- Chiral Metamaterial Produces Record Optical Shift Under Incremental Power Modulation, John Toon
- Once Overlooked, Uninitialized-Use ‘Bugs’ May Provide Portal for Hacker Attacks, Ben Snedeker
- Triboelectric Nanogenerators Boost Mass Spectrometry Performance, John Toon
- How Protein Misfolding May Kickstart Chemical Evolution, Carol Clark
- Howard Chosen for Atlanta Magazine Honor, Jackie Nemeth
- Letting the Structure Do the Work, Massimo Ruzzene
- Study sheds light on key role for ‘rare’ aquatic microbes in dealing with pollution, balancing ecosystems, Kostas T. Konstantinidis
- Danger in the air? Brown wins NSF CAREER grant to find out, Joe Brown
Posted in Broadband, Business, Communication industry, Economic development, Economy, Education, Energy & emissions, Healthcare, Nature, Product, Science, Technology, Transportation
Tagged Broadband, Business improvement, Climate change, Ecology, Georgia Tech, Health, Internet, Manufacturing, Technology
Launch times draw near for Aalto satellites
By Jaan Praks – The Aalto-2 satellite, designed and built by students, is ready and waiting to be launched inside the Cygnus space shuttle at the Cape Canaveral Space Launch Complex in the US.
On 22 March, the shuttle will be launched with an Atlas V booster rocket up to the orbiting international space station, where the astronauts will release it later to orbit independently.
Aalto-2 will take part in the international QB50 Mission, the aim of which is to produce the first ever comprehensive model of the features of the thermosphere, the layer between the Earth’s atmosphere and space. Dozens of satellites constructed in different countries will also be part of the mission.
Construction of the Aalto-2 satellite began in 2012 as a doctoral project when the first students graduated as Masters of Science in Technology after working on the Aalto-1 project.
Since the start of the Aalto-1 project in 2010 and the Aalto-2 project two years later, around a hundred new professionals have been trained in the space sector. The impact is already visible in the growth of space sector start-up companies. more> https://goo.gl/yKLrez
Posted in Business, Construction, EARTH WATCH, Economic development, Economy, Education, Healthcare, Nature, Net, Science, Technology
Tagged Aalto University, Business improvement, Construction, Earth, Ecology, Electronics, Manufacturing, Space, Technology
737 MAX 9 Factory Rollout
Boeing – Following on from 737 MAX 8 rollout and flight test, we are now rolling out the first new 737 MAX 9, right on schedule.
737 MAX 9 is the perfect answer to the need for growth while maintaining maximum airline profitability. As well as 16 more seats than the incredibly popular 737 MAX 8, it offers lower trips costs than the competition, the lowest trip costs, which minimizes the risk airlines take on as they grow. And yet provides more than enough additional seats to deliver consistently higher profits through all market conditions.
What’s more, 737 MAX 9 enables airlines to reach farther than almost every single-aisle route they operate today. It has the longest range in its sector without the investment in any auxiliary fuel tanks, and with one auxiliary tank, matches the versatility of the 737 MAX 8 with a range of 3,515 nautical miles. more> https://goo.gl/FsrDdR
Four-Stroke Engine Cycle Produces Hydrogen from Methane and Captures CO<sub2
By John Toon – When is an internal combustion engine not an internal combustion engine? When it’s been transformed into a modular reforming reactor that could make hydrogen available to power fuel cells wherever there’s a natural gas supply available.
By adding a catalyst, a hydrogen separating membrane and carbon dioxide sorbent to the century-old four-stroke engine cycle, researchers have demonstrated a laboratory-scale hydrogen reforming system that produces the green fuel at relatively low temperature in a process that can be scaled up or down to meet specific needs. The process could provide hydrogen at the point of use for residential fuel cells or neighborhood power plants, electricity and power production in natural-gas powered vehicles, fueling of municipal buses or other hydrogen-based vehicles, and supplementing intermittent renewable energy sources such as photovoltaics.
Known as the CO2/H2 Active Membrane Piston (CHAMP) reactor, the device operates at temperatures much lower than conventional steam reforming processes, consumes substantially less water and could also operate on other fuels such as methanol or bio-derived feedstock. It also captures and concentrates carbon dioxide emissions, a by-product that now lacks a secondary use – though that could change in the future.
Unlike conventional engines that run at thousands of revolutions per minute, the reactor operates at only a few cycles per minute – or more slowly – depending on the reactor scale and required rate of hydrogen production. And there are no spark plugs because there’s no fuel combusted. more> https://goo.gl/h4K7fV
- Likelihood of Dieting Success Lies Within Your Tweets, Ben Snedeker
- New Partnership to Advance Production Standards in Biomanufacturing, Josh Brown
- Simulated Ransomware Attack Shows Vulnerability of Industrial Controls, John Toon
- DNA “Barcoding” Allows Rapid Testing of Nanoparticles for Therapeutic Delivery, John Toon
- Size Matters for Marine Protected Areas Designed to Aid Coral, John Toon
- Cholera Bacteria Stab and Poison Enemies so Predictably, Ben Brumfield
- Looking for Entangled Atoms in a Bose-Einstein Condensate, John Toon
- Team Demonstrates Digital Health Platform for Department of Veterans Affairs, John Toon
- Eating in the blink of an eye, Jason Maderer
- Internet of Things Center Continues to Grow, Make Global Impact, Lance Wallace
- Weaver Wins JDRF Fellowship
- Trio of Petit Institute labs link tendon overuse injury to degenerative changes in shoulder cartilage, Jerry Grillo
- Liquid Assets, Erin Peterson
Posted in Broadband, Business, Communication industry, EARTH WATCH, Economic development, Economy, Education, Energy & emissions, Healthcare, Nature, Science, Technology
Tagged Broadband, Business improvement, Climate change, Cybersecurity, Georgia Tech, Health, Manufacturing, Physics, Technology
By Geoff Tate – The cost and the time to design ASSP/ASIC/SoCs keeps rising.
Also, customers are demanding more flexibility in chips so their systems can be upgraded for critical changes (such as protocols/standards), which increases the useful life of their systems and increases their ROI.
For example, in data centers, customers are now seeking reconfigurability. Rather than a fork-lift upgrade when standards evolve, data centers want programmable chips so they can upgrade the data center’s ability during the life of the center without touching the hardware. This also gives the data center the option to customize for added competitive advantage. As Doug Burger of Microsoft said at a recent talk at FPL 2016, (Re)Configurable Clouds will change the world with the ability to reprogram a datacenter’s hardware protocols: networking, storage, security. Adding FPGA technology into the mix is a key in doing this. Embedded FPGA technology is now available to increase performance while lowering cost and power.
Another example is microcontrollers. In older process nodes such as 90nm where mask costs are cheap, a line card can have dozens or hundreds of versions. This offers each customer the small differences in, for example, the number and types of serial interfaces (SPI, I2C, UART, etc). However, now that leading edge microcontrollers are moving to 40nm where masks cost $1M each, microcontroller manufacturers need a programmable way to customize their chips and offer multiple SKUs. Adding this capability also opens the path for their customers to customize the MCUs themselves, similar to how they now write C code for the on-board processors. There are a few microcontrollers today, such as Cypress’ PSoC, which offer some limited customizability. However, only embedded FPGA can provide more and scalable customizability. more> https://goo.gl/9xx7sC
Posted in Broadband, Communication industry, Economic development, Education, Net, Product, Technology
Tagged Broadband, Business improvement, Electronics, FPGA, Manufacturing, Technology
GE Just Turned the World’s Most Powerful Jet Engine Into A 65-Megawatt Power Plant
By Tomas Kellner – GE is taking the world’s largest jet engine and turning it into a power plant. The machine’s beating heart comes from the GE90-115B, which is the largest and most powerful jet engine, capable of producing 127,900 pounds of thrust, according to Guinness World Records. The electricity generator, which GE calls LM9000, will be able to generate a whopping 65 megawatts — enough to supply of 6,500 homes — and reach full power in 10 minutes.
The technology is also a good example of what GE calls the GE Store — the system of sharing technology, research and expertise among its many businesses. Today, aeroderivatives power towns and factories but also oil platforms and ships. more> https://goo.gl/dSwnhF
Posted in Business, Economic development, Economy, Energy & emissions, History, Product, Science, Technology, Transportation
Tagged Business improvement, GE, Industrial economy, Jet engine, Manufacturing, Power plant, Productivity, Technology