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Vanadium-Based BCC Alloys: The "Energy Core" of Hydrogen Two-Wheeled Vehicles

For small mobility applications like hydrogen two-wheeled vehicles, vanadium-based BCC alloys, due to their compactness and high reliability, are ideal hydrogen storage materials. These vanadium-based body-centered cubic alloys, with their body-centered cubic structure, enable high-density hydrogen storage at low pressure, making them ideal for miniaturized energy storage.

The strong stability of vanadium allows BCC alloys to maintain stable performance even during frequent charging and discharging, enabling a single charge range of up to 100 kilometers, fully meeting daily commuting needs. The relevant technology has been industrialized, resulting in a filling line with an annual production capacity of 30,000 standard hydrogen storage bottles, each of which relies on the efficient hydrogen absorption and desorption properties of vanadium-based alloys. Compared to traditional batteries, hydrogen two-wheeled vehicles powered by vanadium-based hydrogen storage alloys can be refueled in just minutes and have a lifespan over three times that of conventional batteries, reshaping the energy landscape for short-distance transportation.