As the wave of technological innovation continues to surge forward, battery technology—at the heart of countless industries—is undergoing a profound and far-reaching transformation. Herewin’s semi-solid-state batteries, representing the forefront of next-generation energy solutions, are gaining rapid traction in applications such as two-wheelers, drones, and energy storage systems, thanks to their outstanding performance advantages.
Herewin Semi-Solid-State Batteries: Innovation and Key Advantages
Herewin’s semi-solid-state battery technology represents a breakthrough solution that bridges the gap between conventional liquid-state batteries and fully solid-state batteries. This new-generation battery features an electrolyte system composed of liquid electrolyte particles embedded within a solid polymer matrix—effectively combining the strengths of both liquid and solid-state designs.
On one hand, the liquid electrolyte ensures excellent ion conductivity for efficient charging and discharging. On the other, the solid polymer structure greatly enhances thermal stability and overall safety. This hybrid structure positions Herewin’s semi-solid-state batteries as a comprehensive advancement in energy storage technology.
Compared to traditional lithium-ion batteries, Herewin’s semi-solid-state batteries offer several compelling advantages:
High Safety Performance
Built-in Protection from the Inside Out
By integrating solid electrolytes, the battery significantly reduces the risk of internal short circuits—providing a robust safety barrier akin to armor. This greatly minimizes hazards such as fire or explosion. To ensure safety across various scenarios, Herewin has conducted rigorous testing in four dimensions: electrical, mechanical, thermal, and environmental safety.
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Electrical safety tests show that while traditional liquid batteries often experience swelling, leakage, or fire under overcharge or over-discharge conditions, Herewin’s semi-solid-state battery remains stable.
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Mechanical safety tests including puncture and compression show that the battery maintains performance even under physical stress.
This enhanced safety makes it ideal for high-risk applications such as electric two-wheelers and drones, while also providing dependable protection in large-scale energy storage systems.
Hoge energiedichtheid
Extended Runtime for Demanding Applications
With an energy density of up to 350 Wh/kg, Herewin’s semi-solid-state batteries far exceed industry averages. This enables:
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Longer driving range for electric two-wheelers, eliminating “range anxiety”
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Extended flight time for drones, meeting the needs of complex or long-duration tasks
By packing more energy into a smaller, lighter form factor, users benefit from improved efficiency, portability, and convenience.
Wide Operating Temperature Range
Stable Performance in Extreme Conditions
The battery maintains reliable operation across a broad temperature spectrum—from -40°C to 80°C. Unlike traditional batteries that may swell, leak, or fail under extreme heat or cold, Herewin’s solid polymer matrix resists decomposition and evaporation.
This makes it a dependable power source in harsh environments, ensuring device stability in cold winters, hot summers, or remote regions with fluctuating climates.
Long Cycle Life
Lower Total Cost of Ownership
Herewin’s semi-solid-state batteries are built to last, with a cycle life exceeding 2,000 charge-discharge cycles, far outperforming conventional lithium-ion batteries. This durability means:
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Less frequent replacements
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Lower maintenance costs
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Higher return on investment for businesses
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Reduced environmental impact from battery disposal
Eco-Friendly and Sustainable
Setting a New Standard for Green Energy
Aligned with global carbon neutrality goals, Herewin places strong emphasis on environmental responsibility. The batteries are manufactured using eco-compliant raw materials and optimized production processes to minimize emissions and waste.
Thanks to their long service life, fewer replacements are needed, reducing electronic waste. When batteries do reach end-of-life, Herewin’s proprietary recycling technology enables recovery of over 95% of critical metals like lithium and cobalt—supporting a circular economy model of “production–use–recycling.”
This commitment to sustainability not only meets regulatory standards but also helps drive greener growth across industries like electric mobility, drones, and energy storage.
Application Performance of Herewin Semi-Solid-State Batteries Across Key Industries
| Application | Performance of Traditional Batteries | Advantages of Herewin Semi-Solid-State Batteries | Real-World Case Studies & Data |
|---|---|---|---|
| Electric Two-Wheelers | Frequent incidents of spontaneous combustion; poor low-temperature performance; frequent battery failures due to vibration; limited energy density results in shorter range (typically 50–100 km); short cycle life with noticeable performance degradation after repeated use, raising costs and reducing vehicle lifespan. | Enhanced safety significantly reduces the risk of fire or thermal runaway; higher energy density enables extended range; long cycle life lowers total cost of ownership. | A leading electric scooter brand equipped with Herewin’s battery achieved less than 10% range loss at -20°C, compared to over 30% loss with conventional lithium batteries. Energy density reached 180 Wh/kg, increasing range to around 120 km. Cycle life exceeded 2,000 cycles, far outperforming traditional alternatives. |
| Drones | Limited by low energy density, resulting in short flight times (typically 20–30 minutes for consumer drones); low charge/discharge rates hinder flight responsiveness and performance; safety risks arise during high-temperature or high-load operations. | High energy density significantly extends flight time; improved charge/discharge rates enhance flight performance; superior safety ensures reliable operation under extreme conditions. | An industrial drone powered by Herewin’s semi-solid-state battery achieved 350 Wh/kg energy density, extending flight time from 30 to 50 minutes. Charge/discharge rate improved by 50%, enabling fast charging and high-current discharge for demanding missions. |
| Energy Storage Systems | Low storage efficiency and large physical footprint; limited cycle life results in frequent replacements and higher operational costs; safety risks exist in large-scale deployments. | High storage efficiency reduces space requirements; extended cycle life lowers maintenance and replacement costs; enhanced safety supports large-scale, stable deployments. | A utility-scale energy storage station using Herewin batteries saw a 20% increase in storage efficiency. Cycle life exceeded 4,000 cycles, with no leakage or explosion risks reported during operation—ensuring long-term, stable performance. |
Typical Application Scenarios and Recommended Cell Models
| Application Type | Typical Use Cases | Key Requirements | Recommended Cell Models |
|---|---|---|---|
| Long-Endurance Drones | Agricultural spraying, logistics, aerial mapping, routine patrol | High energy density, low self-discharge rate | T1090190E-35Ah T12105212K-45Ah P11105212EV-41Ah |
| High-Power Drones | Military operations, emergency rescue missions | High discharge rate, excellent performance in high and low temperatures | T1190190GH-22Ah T12105121SH-30Ah |
| Electric Two-Wheelers | Daily commuting, food delivery | High discharge rate, long cycle life | F95155262H F11145262H F11161260H |
| Energy Storage Systems | Residential energy storage, power grid support | High capacity, long cycle life | F12210300H F13167242 F13166246 |
Company Development and Future Outlook
Herewin has been deeply engaged in battery research and development for many years. With a relentless commitment to technological innovation and a keen understanding of market trends, the company has grown into a leading player in the industry. Backed by a world-class R&D team comprised of top-tier experts with extensive theoretical knowledge and hands-on experience, Herewin continuously invests in innovation, overcoming technical barriers and driving semi-solid-state battery technology to new heights.
Today, Herewin has established a broad and stable network of strategic partnerships across multiple sectors:
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In the electric two-wheeler segment, the company collaborates with numerous well-known manufacturers, offering customized battery solutions tailored to different vehicle models and user needs—empowering partners to launch more competitive products.
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In the drone industry, Herewin works alongside leading enterprises to provide reliable power systems that support high-performance flight in demanding environments.
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In the energy storage sector, Herewin actively participates in the construction of large-scale storage projects, earning wide recognition for its superior battery performance.
As the technology matures and economies of scale drive down production costs, Herewin’s semi-solid-state batteries are poised for broader adoption. In the two-wheeler market, they will accelerate the transition to electric mobility—bringing cleaner, safer, and more convenient transportation to the masses. In the drone space, they will enable deeper integration in agriculture, logistics, and emergency response. In the energy storage field, they will play a critical role in building a cleaner, more efficient, and more stable power infrastructure.
Looking ahead, Herewin’s semi-solid-state batteries are not only expected to drive substantial performance upgrades across two-wheelers, drones, and energy storage systems, but also to inspire new applications and business models. Whether it’s enhancing urban mobility, supporting efficient drone operations across industries, or powering the next generation of smart energy systems, Herewin’s breakthrough battery technology will be a vital enabler—pushing industries forward and contributing to global technological advancement and sustainable development.
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