Key Advances Transforming the Car Battery Charger Landscape

With the world growing ever more advanced with smartphones, smart homes and smart wearable as well, still the commitments are limited by power. The world is waiting for a battery revolution. Nearly every sector of any industry nowadays runs on a battery which is facing limitation by the power and energy life of the batteries that run it.

Tech companies, and currently car makers such as Tesla that are making electric vehicles, are well aware of the limitations of mostly used lithium-ion batteries. Heavy investment is made into battery development to improve, with the added pressure of racing cars like Formula E cars.

Ultimately batteries are accountable for the lifespan of a car and for the feared variety or collection anxiety in case of electric cars. To tackle this problem, engineers, researchers, and scientists are trying to stuff more voltage capacity into batteries. But that’s often accompanied by defective and chemical reactions which reduce the capability over time. To either assist or replace the lithium-ion batteries a lot of research is dedicated to discovering new resources and chemicals otherwise different components of the battery.

Here are some key advances in car battery chargers:

1.      Capturing energies from Wifi

Whereas wireless inductive charging is normal, having the capacity to gain energy from Wi-Fi or other electromagnetic waves stays a challenge. A group of researchers, nonetheless, has built up a rectenna (radio wave harvesting antenna) which is just a few atoms, making it unimaginably adaptable.

The thought is that devices can integrate this molybdenum disulfide-based antenna with the goal that AC power can be reaped from Wi-Fi in the air and changed over to DC, either to revive a battery otherwise power a gadget instantly. That can notice powered medical pills with no requirement for an interior battery (more secure for the patient), or cell phones that don’t require to be connected to recharge with a power supply.

2.      Solid state lithium-ion

A solid state battery using sulfide supersonic conductors resulted in operating at super capacitor level to completely charge or discharge in merely seven minutes. Along with the solid state and still be able to work under minus 30 and up to 100 degrees Celsius meaning far more stable and safer as compared to current batteries making it safer, faster & ideal for cars.

3.      Grabat graphene car batteries

Graphenano has developed a new battery entitled as Grabat, offering electric cars a driving series of up to 500 miles on a single charge in a few minutes. With the ready availability of this advancement, the Grabat capacity of 2.3V of 1000 Wh/kg as compared to lithium ion’s current 180 Wh/kg. Discharge is similarly important like cars that need massive amounts of power in order to pull away quickly.

4.      Gold nanowire batteries

This discovery uses gold nanowires in a gel electrolyte to avoid breaking down while recharging. While testing, recharging over 200000 times in three months showed no signs of degradation making it ideal for futuristic electric cars which will never require new batteries.  

5.      NTU fast charging battery

Researchers at Nanyang Technology University made a battery that charges fast up to 70% in 2 minutes and has a life much longer than the current lithium-ion batteries, with charging lasting for 10000 charges. The longer battery life makes it logical for individuals to buy an electric car.

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About Shambhu 15 Articles
Shambhu Nath Jha with an experience nearing a decade has helped over 50 large and medium to small business enterprise to foray into new markets, increase footprint in the existing bucket and understand the nature of the beast. These beasts are the companies that have been primarily engaged in chemicals, material or packaging activities, and encountering challenge either in maintain P&L or staying ahead of their competitors. He has authored over 300 industry research papers consisting critical information such as market growth, total addressable market, serviceable addressable market, market size, forecast, player strategies, market share estimates and winning imperatives along with recommendations. He is also the pioneer of “three slope distributor/off-taker evaluation model” used by several multinational companies to track the performance of channel partners. A consultant by profession, writer by mood and explorer by desire, Shambhu Nath is currently employed with a London based market research and consulting firm as a full time consultant. A few of the industry verticals where he demonstrated his skill includes water and wastewater treatment chemicals, high purity alumina, water purifiers, activated carbon, chloramine filters, bio-based bioplastics, water purifiers, textile chemicals etc.