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Author Topic: Here is the battery that is always charged  (Read 4962 times)

Offline geptole

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Here is the battery that is always charged
« on: October 10, 2018, 09:06:24 PM »
Researchers at Hong Kong Polytechnic University claim to have invented a new kind of graphene-based "battery" that runs solely on ambient heat. The device is said to capture the thermal energy of ions in a solution and convert it into electricity.
The results are in the process of being peer reviewed, but if confirmed, such a device might find use in a range of applications, including powering artificial organs from body heat, generating renewable energy and powering electronics.

Ions in aqueous solution move at speeds of hundreds of metres per second at room temperature and pressure. The thermal energy of these ions can thus reach several kilojoules per kilogram per degree. However, until now, little work had been done on finding out how to tap into this energy and produce power from it.

Zihan Xu and colleagues made their battery by attaching silver and gold electrodes to a strip of graphene – which is a film of carbon just one atom thick. In their experiments, the researchers showed that six of these devices in series placed in a solution of copper-chloride ions could produce a voltage of more than 2 Volt.
This is enough to drive a commercial red light-emitting diode.

The technology is quite different to conventional lithium-ion batteries, for example, which convert chemical energy into electricity. “The output of our device is also continuous and it works solely by harvesting the thermal energy of the surrounding copper-chloride ions, which, in theory, is limitless,” says Xu.

According to the researchers, the battery works rather like a solar cell. The copper ions (Cu2+) continually collide with the graphene strip in the battery. This collision is energetic enough to displace an electron from the graphene. This electron can then either combine with the copper ion or travel through the graphene strip and into the circuit.

Since electrons move through graphene at extremely high speeds (thanks to the fact that they behave like relativistic particles with no rest mass), they travel much faster in the carbon-based material than in the ionic solution. The released electron therefore naturally prefers to travel through the graphene circuit rather than through the solution.
This is how the voltage is produced by the device, explains Xu.

Boosting voltage output
The researchers also found that the voltage produced by the device could be increased by heating the ionic solution and accelerating the Cu2+ ions with ultrasound. Both of these methods work because they increase the kinetic energy of the ions. The voltage also increases if the copper-chloride solution is more concentrated with Cu2+ ions, because the density of Cu2+ on the graphene is then greater. Other cationic solutions can be employed too, such as Na+, K+, Co2+ and Ni2+, although these produce lower voltage outputs.

The unique atomic-layer nature of graphene is crucial for this battery, say the researchers, who also experimented with graphite and carbon-nanotube thin films. They discovered that these materials only produced low voltages of around microvolts, which could be regarded as noise.

Bor Jang of Nanotek Instruments in Dayton, Ohio, who has worked on making supercapacitors from graphene, says that the concept described looks "very interesting" but that "more work will be needed to assess whether the approach could provide sufficient energy or power density for practical uses".

For its part, the Hong Kong team now plans to improve the power output of its graphene-based device and further investigate how it works.

Offline blueplanet

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Re: Here is the battery that is always charged
« Reply #1 on: October 15, 2018, 05:29:12 PM »
Is this an old news or what?
I thought they have not been able to replicate the experiment.

Offline profitis

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Re: Here is the battery that is always charged
« Reply #2 on: February 14, 2019, 11:49:34 AM »
nevermind that stuff.heres what you do for a everlasting bat: 1) take one new energizer aa alkaline,peel label off .haksaw or chop off with a hammer and screwdriver the negative basecap at the neck.pullout the pin and throw pin away.pullout the sack of zinc in the middl using a larg screw and throw away.rinse the hollow blak tube that remains.rinse under flowing tap water.2) take 3 or 4 aa energizer alkalines new or old it doesnt matter.and do same as step 1 with each then smash all blak manganese oxide out by tapping with will now have 3 or 4 empty bat shells.peel labels off them and remove glue with toss them all into pure pool acid or spirit of salts (hcl).add condys crystals(kmno4) or potassium dichromate(k2cr2o7) and etch them until they begin to rough.dont over etch becoz u want both top nickel coat rough and underlayer(steel).rinse them thorougly under tap.3) take your single new hollow manganese oxid tube energizer from step (1) and your 3 or 4 empty etchd shells from step (2) and shove them all in a jar of sodium bicarbonate(nahco3) solution.connect your empty aa shells together with steel wire(non galve) or kitchen dishes scourer ribbon(iron or steel).now you have your positive terminal(from step1) and your negative terminal(empty etchd shells from step 2).short them for 3 hr to passivate the empty the empty shells will not corrode'l get a permanent voltage of about 0.4v. hookup 2 or 3 of these series to a joule thief and lite a l.e.d. or 2 permanent. use a 9v,12v,or 15 v or 16v transformer,any npn or pnp transistor,the PRIMARY(smaller coil) to the BASE of transistor(step down not up).use a variabl resistor to choke(save)  current at the bat.etch more  shells (6,7,8) for the negativ pole of this battery 4 mo powa
« Last Edit: February 18, 2019, 02:37:59 PM by profitis »