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Lithium-ion batteries are now commonly used in many applications, from electric vehicles to smartphones
.
But the $3,000 price tag puts lithium-ion battery technology out of reach for many customers
.
To achieve large-scale energy storage, Maksym V.
Kovalenko and colleagues wanted to develop an alternative technology
for lithium-ion batteries.
Currently, according to the journal ACS, researchers are developing a new type of battery that uses low-cost materials sodium and magnesium to reduce the cost of
energy storage.
Researchers began using magnesium as a safe, inexpensive anode material with high energy density, paired with pyrite composed of iron and sulfur as a cathode
.
The electrolyte contains sodium and magnesium ions
.
Experiments show that the energy density of the new material is close to that of lithium-ion batteries, and if the magnesium electrolyte is further developed, the energy storage density will increase by 2-3 times
.
Because of the low cost and price of production, it can one day be used to support grid-scale energy storage systems
.
Lithium-ion batteries are now commonly used in many applications, from electric vehicles to smartphones
.
But the $3,000 price tag puts lithium-ion battery technology out of reach for many customers
.
To achieve large-scale energy storage, Maksym V.
Kovalenko and colleagues wanted to develop an alternative technology
for lithium-ion batteries.
Currently, according to the journal ACS, researchers are developing a new type of battery that uses low-cost materials sodium and magnesium to reduce the cost of
energy storage.
Researchers began using magnesium as a safe, inexpensive anode material with high energy density, paired with pyrite composed of iron and sulfur as a cathode
.
The electrolyte contains sodium and magnesium ions
.
Experiments show that the energy density of the new material is close to that of lithium-ion batteries, and if the magnesium electrolyte is further developed, the energy storage density will increase by 2-3 times
.
Because of the low cost and price of production, it can one day be used to support grid-scale energy storage systems
.
