Chinese
Chinese
Winston Battery focuses on building energy infrastructure that can operate reliably over the long term—even in extreme environments—through a water-based LYP electrochemical system combined with ultra-large-capacity prismatic cells.
Our technological breakthroughs are not driven by isolated performance gains.
They are the result of long-term, systematic research across materials, structure, electrochemistry, manufacturing processes, and thermal management.
Non-flammable electrochemical system
No thermal runaway
Can be extinguished with water
Long-term field validation in extreme cold, extreme heat, high humidity, and corrosive environments
Mass-production capability from 50Ah to 1000Ah
Fewer parallel connections → higher system-level safety
No voltage collapse under load
(a critical advantage for robotics and marine applications)
Operating range: –45°C to +85°C
Validated under high-altitude and extreme pressure conditions
Proven long-term operation in marine, outdoor, and desert environments
Corrosion-resistant polymer housing
Electrode materials resistant to internal breakdown
Optimized thermal resistance control
Structural prevention of internal short circuits
Grid-scale energy storage
Mobile energy storage vehicles
Marine propulsion systems
Robotics and rail transportation
Long-term deployment in extreme environments
Conventional lithium battery systems are approaching structural limits:
Higher energy density → higher risk
More complex BMS → higher cost
More extreme operating scenarios → lower reliability
Winston Battery has taken a different path.
Instead of competing solely on energy density,
we define ultra-high safety and extreme-environment reliability as the foundational objectives of energy system design.
Download the “Technological Breakthrough White Paper”
