Our smartphones have become more
advanced and power-hungry over the last few years, scientists have been looking
at ways to improve battery life for some time. Finally they have come with cheap,
long lasting and quick to recharge batteries. This
is the battery for your phone you have been waiting for. New battery technology uses aluminium
and graphite, and promises to make charging much quicker, less often and far
safer. Stanford University researchers have developed an ultra-fast charging aluminium battery.
Conventional alkaline
batteries are bad for the environment while lithium-ion batteries used in
millions of laptops and smartphones can unexpectedly burst into flames and take
a long time to charge. However the
new battery is fast-charging, long-lasting and inexpensive. It is also flexible
too and can be used in new folding devices in development.
The prototype consists of a soft pouch,
containing aluminium for one electrode and a graphite foam, a
sponge-like pattern of tiny whiskers of the stuff, surrounding many empty
pockets, which allows ions in the electrolyte solution very easy access to the
graphite, helping the battery to work faster.
When the battery discharges,
aluminium dissolves at the anode, while aluminium-containing ions slide into
the spaces between atomic graphite layers at the cathode. When it charges
again, the reverse occurs, depositing metallic aluminium metal back on the
anode.
Because it is lightweight
and inexpensive, aluminium has attracted interest from battery engineers for
many years, but it has never yielded a viable product. The trouble for
engineers has been finding the right material to pair with aluminium, a
material capable of producing high voltage especially after multiple cycles of
rapid charging and discharging. Graphite, a form of carbon in which the atoms
form thin, flat sheets, turned out to deliver very good performance, while also
being similarly lightweight, cheap and widely available.
It offers safety advantages over lithium
batteries that power most mobile devices, the materials used are less volatile
and do not catch fire if perforated. Lithium-ion
batteries can be a fire hazard. While lithium-ion battery can take hours to
charge, the new battery recharges in one minute. Also the electrolyte is
basically a salt that's liquid at room temperature, held inside a flexible
polymer-coated pouch, so it's very safe. This is
in contrast with the flammable electrolytes used in lithium-ion batteries.
The new battery can be recharged around
7,500 times. Typical lithium-ion batteries used in everything from smartphones
and laptops to electric cars last around 1,000 recharge cycles. Another feature
of the aluminium battery is flexibility. You can bend it and fold it, so it has
the potential for use in flexible electronic devices.
The battery can generate around 2 volts of
electricity, which is less than the 3.6 volts from a conventional
lithium-ion battery, but the highest achieved with aluminium. Its energy
density, the amount of electrical energy stored in a given unit of mass, is
also lower. The aluminium-ion battery developed has an energy density of
40 watts per kilogram compared to between 100 and 260 watts per kilogram for
lithium ion. However, improvements in the cathode material could eventually
lead to a higher voltage and energy density, the researchers believe. But the
team already managed to charge a smartphone in a minute by strapping two
aluminium batteries together and put them into an adapter.
According
to Clare Grey from the University
of Cambridge, turning the prototype into a larger commercial product is
challenging. One problem is that the process of squeezing ions in between the
graphite sheets can cause the material to expand and contract, which is "bad
news for the battery”. Also, the bigger the graphite sheets are, the further
the ions have got to diffuse in, so the slower it gets. So part of reason it's
got this high rate is that it's got very small platelets of graphite.
Beyond small electronics devices, it can be
used for storing renewable energy on the electrical grid, which could
solve some of the current problems presented by inconsistent renewable sources
like wind and solar. Lithium
cells’ durability means they aren't ideally suited for this
application. But aluminium cell’s ability to last for tens of thousands of
charges, and their rapid charge and discharge, offers a possible future
alternative.
In the video Stanford graduate student
Ming Gong and postdoctoral scholar Yingpeng Wu demonstrate how the new
technology could offer a safe alternative to lithium-ion and other batteries.
Its unprecedented speed in charging makes it
attractive and impressive. It has all features a dream battery would have:
inexpensive electrodes, good safety, high-speed charging, flexibility and long
cycle life. This technology shows
a promise which is unlikely to be featuring in our smartphones any time soon.
It’s sure that these environment friendly aluminium-ion batteries could result
in safer consumer electronics in future.
Please share your views also....
Please share your views also....
really smart thought...
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