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A New Path For Supercapacitors to Replace Batteries
University of Surrey researchers have found a ground-breaking development of technology that could revolutionize the capabilities of appliances that have previously relied on battery power to work. The development could translate into very high energy density supercapacitors making it possible to recharge your mobile phone, laptop or other mobile devices in just a few seconds.
The technology was adapted from the principles used to make soft contact lenses, which Dr Donald Highgate (of Augmented Optics, and an alumnus of the University of Surrey) developed following his postgraduate studies at Surrey 40 years ago.
Supercapacitors, an alternative power source to batteries, store energy using electrodes and electrolytes and both charge and deliver energy quickly, unlike conventional batteries which do so in a much slower, more sustained way. Supercapacitors have the ability to charge and discharge rapidly over very large numbers of cycles. However, because of their poor energy density per kilogram (approximately just one twentieth of existing battery technology), they have, until now, been unable to compete with conventional battery energy storage in many applications.
The technology could have a seismic impact across a number of industries, including transport, aerospace, energy generation, and household applications such as mobile phones, flat screen electronic devices, and biosensors.
It could also revolutionize electric cars, allowing the possibility for them to recharge as quickly as it takes for a regular non-electric car to refuel with petrol – a process that currently takes approximately 6-8 hours to recharge. The British researchers use the example of, instead of an electric car being limited to a drive from London to Brighton, the new technology could allow the electric car to travel from London to Edinburgh without the need to recharge, but when it did recharge for this operation to take just a few minutes to perform.
Supercapacitor buses are already being used in China, but they have a very limited range whereas this technology could allow them to travel a lot further between recharges. Instead of recharging every 2-3 stops this technology could mean they only need to recharge every 20-30 stops and that will only take a few seconds.
Elon Musk, of Tesla and SpaceX, has previously stated his belief that supercapacitors are likely to be the technology for future electric air transportation. The Surrey team believes that the present scientific advance could make that vision a reality.
Dr Brendan Howlin of the University of Surrey, explained: “There is a global search for new energy storage technology and this new ultra capacity supercapacitor has the potential to open the door to unimaginably exciting developments.”
Dr Ian Hamerton, Reader in Polymers and Composite Materials from the Department of Aerospace Engineering, University of Bristol said: “While this research has potentially opened the route to very high density supercapacitors, these polymers have many other possible uses in which tough, flexible conducting materials are desirable, including bioelectronics, sensors, wearable electronics, and advanced optics. We believe that this is an extremely exciting and potentially game changing development.”
Supercapacitors have been on the storage list of potentials for years now with progress coming in leaps and technology breakthroughs leading to new ideas. There is still quite a way to go to compete with batteries head on. This new path might be the one.
Source: http://newenergyandfuel.com/http:/newenergyandfuel/com/2016/12/08/a-new-path-for-supercapacitors-to-replace-batteries/
You can make a flashlight that can be recharged over 500,000 time?
Here is one of my super capacitor flashlights I built:
http://www.instructables.com/id/400-Farad-Super-Capacitor-Flashlight-Build-This-/