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Lithium titanate batteries have extraordinary long life cycles, fast charging and much safer than conventional Li-Ion batteries. This new method of energy storing is currently revolutionizing the industry and is a game-changing factor for e-cars, hybrid cars and the automotive industry.
The demand for smaller, more efficient and more eco-friendly
renewable energy sources is growing higher everyday as the planet
moves towards a greener future. The advantages of Lithium Titanate
battery technology are significant and they are incorporating a
number of economical as well as ecological aspects that are
important for a future driven by renewable green energy sources.
With a wide range of applications in many sectors and primary focus
on the automotive industry, energy storage module based on lithium
titanate technology is the future of battery-powered technology and
will help us make a big step towards a more sustainable and
eco-friendly planet.
The solution that is most ideal for mobile energy storage is Lithium Titanate technology which utilizes advanced nano-technology processes to produce anodes with a surface area that is substantially larger than that of Li-ion batteries which are commonly used today.
This advantage allows Lithium Titanate batteries to have a life
cycle of up to 20,000 cycles as compared to only 400 in standard
Li-ion batteries.
Additionally, the efficiency of this mobile energy storage solution
allows for a recharge efficiency of up to 98%, much higher than
conventional energy storage mechanisms.
Furthermore, Lithium Titanate offers the highest energy to weight
ratio seen yet, creating exciting opportunities for its
applications for devices that require a low weight battery, such as
light vehicles, e-cars and fork lifts.
With the automotive industry relying more and more on light-weight
designs, the optimal solution for these products depends on
low-weight Lithium Titanate technology.
Lithium Titanate batteries for mobile energy also offer the
advantage in that they are able to store and deliver a current that
is between 30 and 100 times that of regular Li-ion batteries.
It is for this obvious reason that the future of mobile energy
storage must rely on nanotechnology that brings the advantages of a
longer lifetime, shorter recharge cycles, light weight, as well as
high levels of safety and efficiency.