Our Technology
Supercapacitor Structure
Supercapacitors are energy storage devices that excel in frequent charge and discharge cycles at high current and short durations. They achieve this by storing energy electrostatically, unlike batteries that store energy chemically. The rapid charging and discharging capabilities of supercapacitors make them suitable for applications requiring bursts of power.
Solid-State Battery Structure
A solid-state battery utilizes a solid electrolyte for ionic conduction between the electrodes. This design offers advantages over conventional batteries, which use liquid or gel polymer electrolytes. Solid-state batteries are known for their higher energy density, making them ideal for storing larger amounts of energy in a compact space.
Higg Power’s lithium free solid-state (“LFS”) battery is hybrid super-capacitor, solid-state battery.
More about our Technology
Higgs Power's innovative technology utilizes a unique, high-performance super-capacitor structure, providing exceptional energy storage capacity and efficiency. This proprietary design incorporates a porous carbon electrode, current collector, separator, and seal for optimal performance and longevity. Our super-capacitors are designed to withstand demanding conditions and provide consistent power delivery, making them ideal for various applications.
Unlike conventional batteries, Higgs Power's lithium-free battery technology utilizes a unique structure that optimizes energy storage and eliminates safety concerns. The battery structure is designed to ensure continuous storage capacity, stable output, and eliminates ignition due to heat generation during charging and discharging. This technology is a game-changer for various applications requiring safe and reliable energy storage solutions.
Our anode material is specifically designed to hold as many electrons as possible with soft carbon as the main component. This allows for a high energy density in our LFS batteries. We use a precise ratio of carbon and fluorine to achieve a high electrical capacity.
Oxygen plays an important role in our battery, with its ratio changing during charging and discharging. The optimal combination of cathode and anode materials helps to achieve the maximum energy density of the battery.
Reliability Test
Higgs Power’s battery technology undergoes rigorous testing to ensure exceptional reliability and longevity. Our batteries are subjected to extensive cycling tests, high-temperature exposures, and vibration simulations to assess their durability and performance under various conditions.
These tests demonstrate our commitment to delivering batteries that can withstand challenging environments and operate flawlessly for years to come.
