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Recently, researchers at RMIT University in Australia took the lead in developing the world's first rechargeable proton battery, and said that it can be listed within 5~10 years, which will challenge the existing lithium battery technology
.
According to reports, proton batteries combine the advantages of hydrogen fuel cells and are quite environmentally friendly batteries, and do not require metal to manufacture
.
The latest technology even makes this process reversible and ready to be charged
.
During the charging of a proton battery, the carbon in the electrodes binds to the resulting protons by splitting the water with the
help of a power source.
Protons are released again and returned through a reversible fuel, forming water with oxygen in the air to generate electricity
.
And unlike fossil fuels, carbon does not burn or emit
emissions in the process.
Lead researcher Professor John Andrews pointed out that the original hydrogen fuel cell is not only difficult to recharge, but still needs to use expensive rare metals, but the proton battery technology developed by it has taken a key step
towards the future of environmentally friendly energy.
He emphasized that proton batteries, which are mainly composed of carbon, are a more abundant and cheaper raw material than metals such as hydrogen storage alloys and lithium, which can alleviate the demand
for rare metals in today's energy storage technology.
Recently, researchers at RMIT University in Australia took the lead in developing the world's first rechargeable proton battery, and said that it can be listed within 5~10 years, which will challenge the existing lithium battery technology
.
According to reports, proton batteries combine the advantages of hydrogen fuel cells and are quite environmentally friendly batteries, and do not require metal to manufacture
.
The latest technology even makes this process reversible and ready to be charged
.
During the charging of a proton battery, the carbon in the electrodes binds to the resulting protons by splitting the water with the
help of a power source.
Protons are released again and returned through a reversible fuel, forming water with oxygen in the air to generate electricity
.
And unlike fossil fuels, carbon does not burn or emit
emissions in the process.
Lead researcher Professor John Andrews pointed out that the original hydrogen fuel cell is not only difficult to recharge, but still needs to use expensive rare metals, but the proton battery technology developed by it has taken a key step
towards the future of environmentally friendly energy.
He emphasized that proton batteries, which are mainly composed of carbon, are a more abundant and cheaper raw material than metals such as hydrogen storage alloys and lithium, which can alleviate the demand
for rare metals in today's energy storage technology.