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Nowadays, many people are inseparable from smartphones, but power consumption has quickly become a common problem
of smartphones.
Recently, the super battery developed by Professor Wang Xin's research group of the Southern Institute of Technology and Chemical Engineering is expected to solve this problem
.
The research results won the first prize
of Jiangsu Science and Technology Award Conference.
It is understood that graphene is the thinnest, strongest, most conductive and thermally conductive new nanomaterials currently discovered, known as "black gold" and "the king of new materials"
.
Graphene battery is a new energy battery
developed by using the characteristics of lithium ions to quickly shuttle between the surface of graphene and electrodes.
The super battery developed by Nanjing Institute of Technology is an "upgraded version"
of graphene batteries.
According to the team members, this project uses the high specific surface area and unique two-dimensional structure of graphoxide to establish a general preparation method
for graphene oxide, metal particles, metal (hydroxide) oxides, and conductive polymers.
In addition, the research group also designed a preparation and modification method for biparental graphene oxide to construct a graphene-polyaniline hybrid electrode material
with high energy storage density.
Nowadays, many people are inseparable from smartphones, but power consumption has quickly become a common problem
of smartphones.
Recently, the super battery developed by Professor Wang Xin's research group of the Southern Institute of Technology and Chemical Engineering is expected to solve this problem
.
The research results won the first prize
of Jiangsu Science and Technology Award Conference.
It is understood that graphene is the thinnest, strongest, most conductive and thermally conductive new nanomaterials currently discovered, known as "black gold" and "the king of new materials"
.
Graphene battery is a new energy battery
developed by using the characteristics of lithium ions to quickly shuttle between the surface of graphene and electrodes.
The super battery developed by Nanjing Institute of Technology is an "upgraded version"
of graphene batteries.
According to the team members, this project uses the high specific surface area and unique two-dimensional structure of graphoxide to establish a general preparation method
for graphene oxide, metal particles, metal (hydroxide) oxides, and conductive polymers.
In addition, the research group also designed a preparation and modification method for biparental graphene oxide to construct a graphene-polyaniline hybrid electrode material
with high energy storage density.
