In recent years, compared to the rapid development of various electronic hardware and software, the power source of electronic technology --- battery technology has never made a breakthrough in one hundred years.All the traditional chemical battery technology are based on chemical bond release, calculation Its theoretical maximum capacity, it seems difficult to meet the needs of modern people.People wait for many years, waiting for the battery energy density increases and time does not seem to match the real breakthrough in battery technology, it seems to chase an impossible dream, short-term There is basically no revolutionary breakthrough in the current technology is still limited to the existing modification of various electrode materials, the emergence of new materials, may bring some small surprises, but not much hope, difficult within a few years To achieve industrialization.Cell battery energy density increase is too slow, resulting in technical staff can only turn to the hardware power-saving technology research direction.
Recently, a world-first, new principle of super-capacitor storage battery invented by Jinzhou private battery research team, the super capacitor is cleverly set the tablet capacitor charging voltage is high and the super capacitor battery electrode area advantages of both.From the principle data, the energy density can Catch up to even exceed the lithium-air battery called the "ultimate battery", the power density, recyclability and charging speed is far more than the existing battery.
The voltage U is the voltage value at which the dielectric solution reaches the lower of the dielectric saturation voltage and the breakdown voltage of the diaphragm.
According to Mr. Gu Tiangang, supercapacitor team leader, different from the traditional flat-panel capacitor, the activated carbon electrode of the super-capacitor is not the diaphragm but the liquid dielectric in contact with the activated carbon in the electrode cell. Super Capacitor Clever electrode and dielectric distribution Structure that allows for a substantial increase in plate area and charge voltage with minimal mass gain, resulting in very high energy densities of up to 2-3 kWh / kg using current market materials (only positive and negative and Dielectric materials) levels can still achieve energy densities of more than 1 degree when computing accessory weights such as packaging materials, far exceeding the current mainstream Lithium-ion battery level.The Super Capacitor Team has already calculated the critical charge for supercapacitors The formula: C = ε * * 0 * S / d has been verified by the principle experiment, the next step will soon be carried out to screen the appropriate liquid dielectric work.
It is foreseeable that if this technology is successfully implemented as expected, a substantial breakthrough will overturn the oil era and it will have a huge impact on people's production and lifestyles, starting a new round of industrial revolution.