future technologies for electronic devices

First electric accumulator or battery was born in 1859. Relatively lithium batteriesthey only appear on the marketin 1991. However, if the market is not yet showing major changes, several studies are already underway.

power usage portable devicesconnected devices and electric vehicles continues to increase. In fact, users smartphone especially needed more autonomylike electric cars. However, manufacturers cannot increase batteries for several reasons, namely for the convenience of users. Thus, the only way found to meet the needs of consumers isimprove battery performance. To do this, many researchers are studying effective, but inexpensive and respectful of nature to achieve this goal.

The best batteries for electric vehicles

NAVA Technologies developed and patented the electrode in vertically oriented carbon nanotubes (VACT). Technology would allow multiply the force, life cycle And electrical storage capacity batteries. These characteristics are multiplied by ten, five and three, respectively.

New Nawa Technologies battery technology.

With this technology, the main goal of NAWA will be the market electric vehicles. Thus, manufacturers can reduce battery production cost and them carbon footprint. They can also improve the performance of their products. This is an asset because range 1000 km likely to become standard according to NAWA Technologies. According to the latest news, the company has already started production of VACNT material in its factory in Aix-en-Provence in France. However, the market availability of this technology has not yet been determined.

At present, such autonomy on electric vehicles seems like a utopia. However, 1000 km is not that far. in Prototype Lighter One is proof. with battery 60 kWh and solar panelsthis car has passed 710km. However, it should be noted that the conditions during the tests did not reflect actual conditions of use. Moreover, even with 20% error, Lightyear One can still travel up to 568 km. Such performance with the invention of NAWA Technologies would allow approaching 1000 km of autonomy.

Ryden Dual Carbon, ultra-fast battery charging

Through numerous searches in energy storage systemJapanese American company Power Japan Plus not an exception. It has been more than five years since the company announced its new battery technology called Raiden Double Carbon. At this time, the company promised a battery equivalent to lithium-ion in capacity. However, the creation of Power Japan Plus promises more benefits.

Battery designed by Power Japan Plus.

First of all, Ryden Dual Carbon batteries based on carbon. they are more durable as well as less environmental impact. It should be noted that these energy storage devices have a life cycle from up to 3000 fillings. However, electric vehicle manufacturers indicate that their batteries can withstand 1,250 recharges.

Then these storages of electricity load twenty times faster this lithium-ion batteries. They even have the advantage that they can be made in the same factories that make them.

Finally, this new technology will offer batteries less likely to catch fire or explode than lithium. However, we’ll have to wait for the Ryden Dual Carbon batteries to hit the market to verify the Power Japan Plus claims.

Liquid electrolyte energy accumulators

From Harvard Scholars developed a battery that stores energy inneutral pH water. This dissolved organic molecules in this water, called Methuselah’s quinone, which store energy. This new storage system appears to have extremely high durability compared to current lithium batteries, as researchers believe it can last ten years.

Simplified representation of an electrolyte-based battery.

But, in smartphones or others portable devices probably won’t use this technology. In real conditions,electrolyte and battery should be kept in large tanks. So the bigger it is, the better. Please note that their technology would be ideal according to developers for store renewable energy.

But, in smartphones or others portable devices probably won’t use this technology. In real conditions,electrolyte and battery should be kept in large tanks. So the bigger it is, the better. Please note that their technology would be ideal according to developers for store renewable energy.