HIGGS POWER, a subsidiary of BK Dong Yeong Tech, is at the forefront of battery innovation. Their research and development focuses on Lithium Free Solid Battery technologies, including Hybrid Super-capacitors and Solid State Batteries.

These advanced battery technologies offer significant advantages over traditional Lithium-ion batteries, such as increased energy density, improved safety, and longer lifespan. HIGGS POWER's commitment to developing these cutting-edge solutions positions them as a key player in the future of energy storage.

HIGGS POWER

Revolutionizing Battery Technology

Battery Highlights

Fast Charging

Our hybrid supercapacitor solid-state battery technology allows for rapid charging, reducing the time needed to replenish power and increasing convenience for users.

Featuring an impressive 20,000+ life cycles or one million miles in an electric vehicle, our batteries offer unmatched durability, minimizing the need for replacements and reducing long-term costs.

Our lithium-free design ensures minimal fire risk, providing enhanced safety and peace of mind for users in various applications.

Exceptional Lifespan

Safety First

Key Features

• TRL 9 (market ready): HIGGS POWER batteries are commercially available and ready for integration into various applications.

• 20,000+ Lifecycles or One Million Miles: Offering exceptional durability, these batteries undergo minimal performance degradation over extended periods, minimizing replacement needs.

• Fast Charging: HIGGS POWER's batteries charge significantly faster than traditional lithium-ion batteries, providing convenience and efficiency.

• Minimum Fire Risk: The lithium-free design significantly reduces the risk of fire, ensuring a safer user experience.

• High Energy Density: HIGGS POWER batteries pack more energy into a smaller footprint, providing longer runtimes for various devices and vehicles.

Product Superiority

The LFS battery demonstrates significant advantages over traditional lithium-ion batteries, particularly in extreme temperatures. The LFS battery can operate effectively at temperatures ranging from -40°C to 70°C, while lithium-ion batteries struggle outside of a narrow temperature range. This wider operating temperature range allows the LFS battery to be used in a broader range of applications, particularly in harsh environments.

The LFS battery also exhibits exceptional stability, maintaining consistent performance even in extreme temperatures. This is evident in the table showing the temperature rise during discharge at different temperatures. The temperature rise is relatively low across all temperatures, demonstrating the inherent stability of the LFS battery.

Why LFS

Advantage of LFS Battery

The LFS battery is designed to eliminate the risk of heat generation and fire. This makes it a highly safe energy storage solution for various applications. The non-flammable vinyl material used between electrodes prevents fire or explosion upon impact, ensuring stability during operation.

1. Enhanced Safety

2. No Self-Discharge

Unlike traditional lithium-ion batteries, the LFS battery has a zero self-discharge rate. This means that the battery retains its energy over time without any loss due to internal chemical reactions. This eliminates the need for frequent recharging and ensures consistent power output.

3. High Output and Long Lifespan

Unlike traditional lithium-ion batteries, the LFS battery has a zero self-discharge rate. This means that the battery retains its energy over time without any loss due to internal chemical reactions. This eliminates the need for frequent recharging and ensures consistent power output.

4. High Energy Density

The LFS battery boasts an impressive energy density of 480 Wh/kg, achieved through optimization of its internal structure. This density rivals that of general secondary batteries, allowing for efficient energy storage in a compact form factor.

LFS vs Other Batteries

Extreme Temperature Tolerance

Exceptional Lifespan

Unlike traditional batteries relying on chemical reactions for ion transfer, LFS Battery boasts an extended lifespan. This technology ensures a reliable service life exceeding 10 years, and with minimal degradation, its lifecycle could extend beyond 20 years.

The LFS Battery design prioritizes sustainability. Unlike other battery technologies, LFS batteries eliminate secondary pollutants generated from chemical reactions. This eco-friendly approach contributes to a cleaner energy future.

Eco-Friendly Design

The LFS Battery operates efficiently in extreme temperatures, from -36°C to 70°C. This wide operating range surpasses other secondary batteries and allows for wider application scenarios, even in harsh environments.

Company History

Higgs Power was founded in March 2010 by CEO Lee Ki-Hong. The company has since grown to a team of 14 dedicated individuals, focusing on research and development of cutting-edge battery technology.

Establishment

Higgs Power is headquartered in Suwon-Si, Gyeonggi-Do, Korea. The company is currently in the process of expanding its operations to the United States.

Higgs Power prioritizes research and development, with a dedicated corporate research institute. The company's focus on innovation has driven significant growth and expansion, resulting in a substantial increase in sales revenue over the past few years.

From 2020 to 2022, Higgs Power has experienced significant growth in sales revenue, demonstrating the company's strong market position and the increasing demand for its innovative battery technologies. The company is poised for continued success in the future.

Headquarters

Research and Development

Sales Growth

Patents and Certifications

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Technology Overview

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.

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.

Applications

Higgs Power's LFS batteries offer a wide range of applications due to their high power density, long lifespan, and superior safety performance. These batteries are particularly suited for use in electric vehicles, energy storage systems, and renewable energy integration.

Beyond these core applications, Higgs Power is actively exploring new possibilities for its LFS battery technology. For example, the company is developing innovative solutions for electric ships, mobile ESS charging stations, and solar power systems.

Demonstration:
Solar Ship built in LFS Battery

Electric Water Craft

The solar ship project leverages our advanced LFS battery technology to power electric fishing boats. The ship incorporates solar panels to harness clean energy, ensuring sustainable operation. This environmentally friendly approach is ideal for reducing carbon emissions and promoting responsible fishing practices.

The solar ship's propulsion system is driven by high-efficiency electric motors, powered by the LFS battery. This combination provides quiet operation and minimizes disturbance to marine life. The solar ship is a testament to our commitment to innovative energy solutions and our dedication to protecting the environment.

Application to Various Industries

Electric Vehicle

Higgs Power's LFS batteries are ideal for electric vehicles. Their high energy density and long lifespan make them a suitable power source for electric cars, trucks, and buses. These batteries can deliver high performance and a longer range for electric vehicles.

Renewable Energy Storage

Higgs Power's LFS batteries are a perfect solution for storing renewable energy. The batteries can store energy from solar and wind sources, providing a reliable backup power source during peak demand periods. The high energy density allows for compact storage solutions.

Higgs Power's LFS batteries are used for backup power in industrial settings. They can provide uninterrupted power supply (UPS) for critical equipment, ensuring operational continuity during power outages. Their safety features make them suitable for demanding industrial environments.

Industrial Applications

LFS and Solar Energy

Higgs Power's LFS battery technology is a perfect fit for renewable energy applications, especially solar power. LFS batteries are ideal for storing solar energy generated during daylight hours, ensuring reliable power supply even when the sun isn't shining. This allows for greater utilization of solar energy and promotes energy independence.

Our batteries provide consistent and reliable power output for solar installations, maximizing the efficiency and ROI of solar energy systems. LFS batteries are particularly suitable for off-grid applications, enabling homes, businesses, and communities to achieve energy independence from traditional power grids.

Mobile ESS Charging Station for KRISTI

KRIDT Collaboration

This project is a collaboration with the Korea Research Institute for Defense Technology (KRIDT). KRIDT is a leading institute in defense research and development in South Korea.

Military Drone & Robot Charging

The mobile ESS charging station is designed to power military drones and robots in the field. It provides a reliable and secure power source for extended operations.

AI-SC Power Station

The mobile power station is integrated with an AI-based Smart Control (AI-SC) system that enables remote control and management. The AI-SC system ensures efficient power allocation and monitoring.

Future Projects

Higgs Power is actively developing a variety of advanced energy storage and application projects.

This research and development aims to bring significant improvements in efficiency, capacity, and sustainability to the future of energy. These initiatives will contribute to a cleaner and more sustainable energy future.

CONTACT

Please inquire

Lpage@higgspower.com

for additional information.

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