40 ways graphene is about to change your life
The most famous molecule in the tech industry is coming to life
Super-thin graphene Kindles
At MWC 2017, FlexEnable showed-off a full color, graphene-based mechanical pixel system for low-power displays and e-ink displays – that’s a paper-thin Kindle-like device to you and me.
The big breakthrough for the e-ink screen is using printed graphene instead of brittle titanium oxide. “We try to replace some of the metal conductors with printed graphene to make the devices more flexible,” says Dr. Rouzet Agaiby at FlexEnable, whose plastic electronics still tend to include some (non-flexible) silicon. “A Kindle is only thick because it’s on glass.”
Graphene cars
It’s all very well having an electric car, but only if it accelerates as quickly as its petrol counterparts. That means they need to be super-light. So how about we replace glass and metal with plastics, carbon fiber... or graphene?
Cue a limited-edition supercar starting at £130,000 (around $163,000/AU$215,000) from British manufacturer Briggs Motor Company, whose structural components include graphene, so are lighter and stronger than carbon fiber composite, and therefore much more energy-efficient.
Another way of using graphene to increase acceleration is super-capacitors containing graphene for energy recovery; its super-conductive properties create a super-efficient KERS (Kinetic Energy Recovery System). Skeleton Technologies has shown exactly that using curved graphene, which saves on fuel consumption (or reduces electricity use).
Wearable tickets
Printed electronics are the next big thing, and graphene is at the forefront. Costing just a few pennies each are paper wristbands or tickets, which have graphene ink printed onto them. In a recent demo, the proximity of a graphene RFID tag to a reader caused a picture to be taken of the wearer or holder.
"This could be used in closed environments such as airports for monitoring passengers boarding a high security flight, or on the London Underground to track which entrances and exits passengers take just by tracking their ticket," says Dr Thanasis Georgiou, VP, Graphene Security Ltd., Photon Science Institute, University of Manchester.
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"Products in supermarkets could have [graphene-based] RFID technology on them so you could know in real-time where products are."
As well as making shop-lifting much harder, and perhaps even getting rid of the checkout altogether, a connected Internet of Things-like system would be able to see instantly when stocks of specific products are running low.
Robotic graphene hands
How about a totally wearable prosthetic hand like Luke Skywalker wears in The Empire Strikes Back? Graphene inks have been used by the Istituto Italiano di Tecnologia (IIT) to make the Prosthetic IIT-NAIL Hand, which uses graphene ink on paper as the electrodes, replacing titanium.
Doing so gets rid not only of titanium and all cables taking biomedical electrical signals from muscles to the hand, but it means the control system can have direct contact with the stump. The Prosthetic IIT-NAIL Hand is flexible, more comfortable and cheaper to make than existing techniques.
Graphene to cure blindness
It conducts, it’s flexible, and it’s safe when used against flesh. Cue a graphene contact lens – officially an ‘electronic retinal prostheses’ – that helps patients that have lost their sight but still have a functional optic nerve.
The brainchild of Jose Antonio Garrido, director of the Group of Advanced Electronic Materials and Devices at ICN2, graphene is used to effectively detect and translate more light into electrical signals, increasing the resolution of images perceived by the patient's brain. It’s still under development.
A battery that charges in minutes
What if you could charge your phone in five minutes? That’s the thinking behind the Zap & Go charger, which takes full advantage of graphene’s conductive prowess to fully charge in five minutes, though the prototype is only a 750mAh battery. It's due to launch later in 2017.
Meanwhile, the Watt Laboratory (under Huawei's Central Research Institute) also recently used graphene to allow lithium ion batteries to run at temperatures of 60°C, roughly 10°C hotter than standard batteries, thereby prolonging the lifespan of the power pack. It also held a charge for twice as long.
Graphene e-tattoos and fitness trackers
Soon, Fitbit, Jawbone, Misfit and other fitness 'wristables' are going to look clunky – and dumb. Graphene promises not only much thinner (even paper-thin) wristbands, but they'll have integrated graphene light sensors and circuitry that bring extra functionality just by using light.
Wearables that measure your activity and heart rate are everywhere, but they’re bulky, and their one-trick function is becoming boring. Cue graphene-enabled health patches for patients in hospitals, for sports, and for everyone else.
“Wellness sensing in the future will be something like a disposable e-tattoo, which has graphene that senses vital signs like heart rate, oxygen saturation, and skin temperature, breathing rate and even UV light exposure when you’re at the beach,” says Stijn Goossens, Postdoctoral research engineer, Nano-optoelectronics, Institute of Photonic Sciences (ICFO) in Barcelona.
“With oxygen saturation alone you can predict if someone is getting the flu,” he says, adding that even the digital circuits are one-atom thin, including a Bluetooth chip.
Enabled by a flexible and transparent graphene-based sensing platform, the key advantage is that a power-hungry LCD screen isn’t needed. And that means it can be super-thin.
Graphene pixels for wearables
Who needs silicon? Researchers from TU Delft and Spain's Graphenea have found a new way to create mechanical pixels using tiny balloon-like structures. Each pixel is a two-atom thick graphene membrane 13 micrometers wide, and although they don't emit light, they are visible in sunlight so could suit e-books and smartwatches.
Oh, and they're full color; thanks to interference between light waves reflected from the bottom of the cavity and the membrane on top, which can be controlled using pressure. The researchers are now working to control the color of the membranes electrically.
Graphene for scanning your Shiraz
It’s very easy to get drunk on the possibilities of graphene, and it doesn’t get easier than with the ICN2’s graphene quantum dots printed on paper that can detect certain contaminants.
It means the ICN2’s patented sensor, when placed in a phone, exploits the optical properties of graphene quantum dots to detect the presence of pesticides in wine, water, or anything else.
“Light comes from the graphene quantum dots, interacts with the compounds, and you see changes in the light’s color,” says Professor Dr. Arben Merkoçi, director of the Nanobioelectronics and Biosensors Group at the ICN2. “All it uses is paper, a smartphone, and graphene.” It could have uses in hospitals, or anywhere you don’t believe the booze.
Graphene scanners for smartphones
Graphene can also be used to make super-thin, super-sensitive image sensors that can detect invisible infra-red light. Cue spectral applications to differentiate between different organic materials, with a quick photo revealing exactly how ripe fruit is, or whether baby milk is toxin-free; all from a smartphone.
“Our prototype is built on graphene and CMOS integration that can sense both visible and infra-red light,” says Goossens at the ICFO. “In the near future we can produce them in very high quantity at very low cost for smartphones.”
Graphene sensors for 3D cameras
If you've read up on graphene, you may have heard optimistic reports of a graphene camera that's 1000x more sensitive to light than the ones we have today, conjuring visions of pixel-perfect night shots. While you won't want to get your hopes up for that just yet, a more recent project from the University of Michigan deserves a closer look.
It's a DSLR-size camera that uses multiple translucent graphene sensors to create a 3D map of a scene, so that you can pick your focus point after taking a shot. This is a graphene alternative to the 'light field' Lytro Illum, but where the graphene camera uses multiple sensor layers, the Illum needs an array of hundreds of thousands of micro lenses to create its images.
"Graphene detectors can offer very high sensitivity, so you don't really sacrifice the clarity by making them transparent," says associate professor of electrical engineering and computer science Zhaohui Zhong. The tech could be slimmed down to fit into a phone.
Night vision for self-driving cars
The ability to see in the infrared – effectively night vision – means that same graphene CMOS camera can be used as part of a self-driving car’s automatic brake system, specifically in bad weather.
“Now they use visible cameras, but in dense fog they’re useless,” says Goossens of this collision avoidance tech. Autonomous cars will also probably use LIDAR sensors to constantly scan the area around them, but it’s a relatively slow technology.
At Mobile World Congress 2017 in Barcelona, the ICFO had a Scalextric-style track with two VW camper vans buzzing around, with the following vehicle stopping in its tracks as soon as the front vehicle braked in a ‘fog box’.
More useful windows
Graphene's transparent appearance and super low-power means it can be used in some unexpected places. Since it's got super-low power consumption and it's highly sensitive, the tech could be used in inert materials such as windows.
"The light sensors can be embedded in anything, so you could think about putting it in windows or other places where there's no power, such as packaging," says Goossens.
"In a window in a building it could detect whether it's night or day for your curtains to open or close automatically." It's also the first step along the way to windows managing to harvest energy during the day and illuminating during the night - while still being transparent.
However, a more short-term killer app is probably as a hands-free system in a car. "You would need four sensors to detect a directionality, so in a car window it could detect motion sensing – you could change the track on a CD just by waving your hand," says Goossens.
The advantage over existing tech is that graphene can be completely transparent – the entire window could be full of sensors.
3D-printed graphene drones
Drones run out of battery quickly, and their propellers break when they’re landed badly. Cue a drone with 3D-printed graphene composites in its propellers that’s both super-strong and super-light, so more battery-efficient.
“Printing with graphene is very easy, but when you start combining it with other polymers and materials, that’s when it gets complicated,” says Charlotte Powell at the University of Manchester’s National Graphene Institute.
Nevertheless, the goal of this project with the University of Central Lancashire is to make all parts of the drone with graphene, including more graphene composites in the body and even a graphene-based battery pack and graphene spectral sensors.
Graphene motorcycle helmet
They’re hard, they’re hot, and they’re heavy, but helmets have already had the graphene treatment.
Developed by Italy’s Momodesign and the Istituto Italiano di Tecnologia (IIT), this first-ever graphene-infused carbon fiber helmet capitalizes on the material’s thin, strong and conductive, flexible and light characteristics to create a helmet that absorbs and dissipates impact better than your average helmet. It also disperses heat more efficiently, so it’s cooler.
Flexible graphene Wi-Fi receivers
Hardware is dead; the future of phones is flex-ware – and that means graphene making everything curved, bendable and flexible. Oh, and the data super-fast, too.
The first Wi-Fi receiver based on graphene, from AMO together with RWTH Aachen University, has 24 Wi-Fi receivers on pieces of plastic and glass, but its makers claim it can work on fabric, paper, glass or plastic, and deal in Bluetooth, 4G and even 5G.
Prototypes are working at 2.45Ghz and 5.8Ghz and the creators have circuits that work at up to 90Ghz, which covers the 5G standard.
This is printed electronics, which graphene is very much at the forefront of; expect to see RFID tags printed on paper using graphene ink that act as a ticket for concerts and at airports, and even as a method of payment at events and on transport networks.
Making water safe
Water, soil and air purification is also possible with graphene. One of these products – Grafysorber from Directa Plus – is super-absorbent, and ideal for oil spills. “One gram of Grafysorber is able to absorb up to 90 grams of oil,” says Laura Rizzi, R&D manager at Directa Plus.
The mobile Grafysorber Decontamination Unit contains a plasma machine to produce the wonder material on-site, which is even able to return contaminated water to safe levels for drinking.
“Normally you have to use a biological or chemical process to treat contaminated water, but Grafysorber is completely chemical-free,” says Rizzi.
It’s also been suggested that the same properties could be used as water membranes that could sieve pure water straight from a contaminated, muddy puddle.
Graphene gloves
It’s not often said, but virtual reality is not very convincing. It needs movement sensors to become so, and what better than a pair of super-responsive gloves that are sensitive to tiny changes in motion and temperature?
“Graphene flakes printed in very thin layers are very sensitive to strain,” says Dr Darryl Cotton, Senior Researcher, Nanotechnology, Nokia Research Center in Cambridge.
“We’ve also put reduced graphene oxide into a temperature sensor.” The end result is a glove that, for now, sets-off surface-mounted LEDs, but they’re so thin and flexible that they could be used to make virtual reality environments responsive to tiny movements in fingers.
Graphene miniature speakers
Regular audio speakers are very physical things. They use drivers that move back and forwards very quickly, exciting the air to create sound waves. Back in 2013, the University of California at Berkeley made an earphone with a graphene driver, but the material has also been used to create a completely different kind of speaker.
A recent article in the ACS Applied Materials & Interfaces journal outlines a thermo-acoustic speaker made using graphene. It's lab-bound right now, but it could be a fit for mobile devices, as it doesn't require the kind of speaker cavity normal dynamic driver speakers need.
The way in which it works may sound odd though. A suspension of graphene flakes is freeze-dried to produce an aerogel – an ultra-porous graphene-based structure, a bit like a rigid sponge. This gel is then rapidly heated and cooled to cause air movement similar to that of a normal speaker cone.
We're yet to see how much battery drain a thermo-acoustic speaker would cause, and how much discernible heat it might produce – but if it makes a tablet sound more like a mini surround sound system, we're in.
Graphene bikes
In July 2016, Dassi unveiled the first graphene bike frame. As graphene's strength relative to its weight is so high, graphene should make ultra-rigid, extremely light bike frames a cinch to design.
The Dassi frame is still predominantly a carbon fiber frame, with some layers of graphene reinforcement at its core, but graphene itself makes up only around one percent of the frame.
At this stage it's a proof of concept, particularly as the frame is around the same weight as a top-end all-carbon one, at 750g. However, Dassi claims the weight will eventually be reduced to "500g unpainted".
Graphene can also be woven into carbon fiber; Rice University successfully reinforced carbon fiber with graphene flakes in 2013, and a company called Zyvex already makes a carbon fiber graphene composite called Arovex.
Vittoria Industries is using graphene in its top of the range Corsa tyres, as well as in its carbon wheels. "We are using graphene-nanoplatelets in the resin, which we impregnate into the carbon fiber," says Giulio Cesareo, CEO of Directa Plus, which supplies the graphene.
The end products are lighter, stronger, and more flexible, with extra thermal conductivity in tyres meaning better stiffness and grip.
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Prev Page 20 ways graphene will change your lifeJamie is a freelance tech, travel and space journalist based in the UK. He’s been writing regularly for Techradar since it was launched in 2008 and also writes regularly for Forbes, The Telegraph, the South China Morning Post, Sky & Telescope and the Sky At Night magazine as well as other Future titles T3, Digital Camera World, All About Space and Space.com. He also edits two of his own websites, TravGear.com and WhenIsTheNextEclipse.com that reflect his obsession with travel gear and solar eclipse travel. He is the author of A Stargazing Program For Beginners (Springer, 2015),