Energy Storage Super Capacitors Bottle Energy in New Breakthrough
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Energy Storage Super Capacitors Bottle Energy in New Breakthrough
Energy Storage Super Capacitors Bottle Energy in New Breakthrough
UCLA and Egyptian scientist accidentally find a new way to bottle stored energy. This missing link for solar energy, hydro and electric cars could be a fast, tiny, biodegradable battery
Penicillin, Teflon, microwave ovens and superglue were all discovered by accident. And now graphene super-capacitors might be the most important accidental discovery of our time – one that can change the way energy is stored. A team of UCLA researchers led by chemist Richard Kaner used a commercial DVD burner to produce sheets of a carbon-based material known as graphene.
The “accident” occured when Cairo University graduate Maher El-Kady (pictured below) wired a small piece of graphene to an LED and found that it behaved as a super-capacitor, able to store a considerable amount of electricity. Their laser-scribed graphene is ideal as a super capacitor partially because of its enormous surface area, 1520 square meters per gram. Here’s how it works:
The story begins with quirky old kite-flying American, a key and a bolt of lightning. It ends with a jar full of electricity. Benjamin Franklin’s jar of electricity is known as a Leyden jar.
It is a primitive electronic circuit element known as a capacitor. The Leyden jar illustrates some promising characteristics of capacitors. As electrical storage devices, they are extraordinarily simple. You can make one at home with a glass jar and a some aluminum foil.
Capacitors have some advantages over Lithium, Nickle-Metal hydride and other chemical batteries. Batteries convert electrical energy to and from chemical energy. But capacitors store electrical charge by bottling excess electrons on one side of a thin barrier.
So capacitors needn’t contain caustic mixtures of acids, alkalis and toxic metals as batteries do. Capacitors can also be charged many times and they can be charged very fast. Some of the tantalum and electrolytic capacitors inside your computer or iPad are charging and discharging millions of times while you read this.
capacitors are so wonderful, why aren’t they used in place of batteries electric cars to laptops and mobile phones?
The problem is that capacitors aren’t able to store very much energy. A Lithium Ion battery the size of a Leyden jar can store more than 500,000 times more energy.
But capacitors have improved since the Leyden jar. The graphene capacitor these UCLA scientists created has 4 billion times the capacitence of a Leyden jar.
Since its operating voltage is much lower, it might only store about 40,000 times the energy density of a Leyden jar, but this brings it much closer to the energy density of a chemical battery.
And that could change everything.
UCLA and Egyptian scientist accidentally find a new way to bottle stored energy. This missing link for solar energy, hydro and electric cars could be a fast, tiny, biodegradable battery
Penicillin, Teflon, microwave ovens and superglue were all discovered by accident. And now graphene super-capacitors might be the most important accidental discovery of our time – one that can change the way energy is stored. A team of UCLA researchers led by chemist Richard Kaner used a commercial DVD burner to produce sheets of a carbon-based material known as graphene.
The “accident” occured when Cairo University graduate Maher El-Kady (pictured below) wired a small piece of graphene to an LED and found that it behaved as a super-capacitor, able to store a considerable amount of electricity. Their laser-scribed graphene is ideal as a super capacitor partially because of its enormous surface area, 1520 square meters per gram. Here’s how it works:
The story begins with quirky old kite-flying American, a key and a bolt of lightning. It ends with a jar full of electricity. Benjamin Franklin’s jar of electricity is known as a Leyden jar.
It is a primitive electronic circuit element known as a capacitor. The Leyden jar illustrates some promising characteristics of capacitors. As electrical storage devices, they are extraordinarily simple. You can make one at home with a glass jar and a some aluminum foil.
Capacitors have some advantages over Lithium, Nickle-Metal hydride and other chemical batteries. Batteries convert electrical energy to and from chemical energy. But capacitors store electrical charge by bottling excess electrons on one side of a thin barrier.
So capacitors needn’t contain caustic mixtures of acids, alkalis and toxic metals as batteries do. Capacitors can also be charged many times and they can be charged very fast. Some of the tantalum and electrolytic capacitors inside your computer or iPad are charging and discharging millions of times while you read this.
capacitors are so wonderful, why aren’t they used in place of batteries electric cars to laptops and mobile phones?
The problem is that capacitors aren’t able to store very much energy. A Lithium Ion battery the size of a Leyden jar can store more than 500,000 times more energy.
But capacitors have improved since the Leyden jar. The graphene capacitor these UCLA scientists created has 4 billion times the capacitence of a Leyden jar.
Since its operating voltage is much lower, it might only store about 40,000 times the energy density of a Leyden jar, but this brings it much closer to the energy density of a chemical battery.
And that could change everything.
Miles1- Posts : 1080
Join date : 2012-01-28
Age : 46
Location : Cork, IE
Re: Energy Storage Super Capacitors Bottle Energy in New Breakthrough
So almost but not yet.
Sir Pun- Posts : 1621
Join date : 2013-01-30
Re: Energy Storage Super Capacitors Bottle Energy in New Breakthrough
Thought superconductors gave off a lot of heat...
Sir Pun- Posts : 1621
Join date : 2013-01-30
Re: Energy Storage Super Capacitors Bottle Energy in New Breakthrough
Pun wrote:Thought superconductors gave off a lot of heat...
They shouldn't? Heat is produced due to resistance, and superconductors are supposed to have almost no resistance. That said, they do have to be kept at very low (near 0ºK!) to function. Above their superconducting temperatures, many are actually lousy conductors (ie lead).
Bryant- Admin
- Posts : 1452
Join date : 2012-01-28
Age : 35
Location : John Day, Oregon
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