It requires one to completely dismiss the redox battery design.
Battery or Capacitor. These battery tupe styles rely on polar opposite reactions.
= energy intensive ( reacting, moving, recycling back to cathode )
In order to develop a new kind of battery,
one has to " rethink " electrons role and how different masses react with electrons.
Energy Storage
is a good place to " rethink " the battery.
Storage and Retension of Electrons.
We know how to store the electrons... but still rely on redox to release electrons.
Here is where " rethinking " the battery should begin.
Heat --------> in actuality is stored electrons.
Like a coil element on a stove top...
Electrons flow into the coil and the coil accepts the electrons.
It's about conversions.
Electrons supersaturating the coil -------> coil changes color to red hot -----> light.
Similar to the first light bulb invention = electrons super saturating a thin wire.
In order to design new batteries.
One has to understand conversions.
Electron = Heating mass = convert back to electrons
Which is why a Carbon Cube is = ideal.
Storing electron ( thermal heat ) in carbon.
Then... using BETA photocells that capture heat and convert back to
= usable electrons.
As mentioned,
current battery tech relies on, polar opposite " reaction " in redox.
Wastes lots of energy trying to react ions / electrons from one metal to another.
Carhode to Anode in electrlyte.
Carbon Disulphide
Is linear ( one way flow. )
Unlike, polar batteries which require polararity to function = redox reaction.
Carbon Disulphide
Linear ( flow ) could mean..... no resistence jo redox needed.
Single pole load electrons
Single pole release electrons
Haven't come across any research papers on single pole batteries.
My own theoretical poke at " new " battery tech.
