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According to foreign media reports, Sam D.
Molenaar, a researcher at Wageningen University in the Netherlands, and his colleagues have successfully developed a bacterial battery that can be continuously charged and discharged 15 times
.
The researchers said that after 16 hours of continuous charging, it can provide up to about 8 hours of battery life
.
Researchers say that this bacterial battery can compete with lithium-ion batteries at a lower cost and higher performance
.
This battery combines two technologies
.
The first when the molecules in the microbial fuel cell that generate electricity will undergo a redox reaction, where the gain or loss of electrons or the shift of electron pairs occurs between
molecules.
The second technique is microbial electrosynthesis, in which the electricity generated is converted into chemicals that are reused by batteries
.
Such batteries are expected to be used in the future to store renewable energy
sources such as solar and wind power.
According to foreign media reports, Sam D.
Molenaar, a researcher at Wageningen University in the Netherlands, and his colleagues have successfully developed a bacterial battery that can be continuously charged and discharged 15 times
.
The researchers said that after 16 hours of continuous charging, it can provide up to about 8 hours of battery life
.
Researchers say that this bacterial battery can compete with lithium-ion batteries at a lower cost and higher performance
.
This battery combines two technologies
.
The first when the molecules in the microbial fuel cell that generate electricity will undergo a redox reaction, where the gain or loss of electrons or the shift of electron pairs occurs between
molecules.
The second technique is microbial electrosynthesis, in which the electricity generated is converted into chemicals that are reused by batteries
.
Such batteries are expected to be used in the future to store renewable energy
sources such as solar and wind power.
