24 Days of Sustainable Energy Solutions

Join us over the next 24 days as we explore the features and benefits of eco-friendly energy. We provide easily actionable strategies to help you reduce your carbon footprint through innovation and cost-effective sustainable energy solutions.

Whether you need daily power for an RV, truck, or boat or a backup system for off-grid living and emergencies, this adventure leads to a more sustainable future.

Day 1. Dragonfly Energy: Pioneers in Sustainable Battery Technology

At Dragonfly Energy, we provide progressive sustainable energy solutions to drive sustainability, responsibility, and resilience. Our innovative, eco-friendly systems redefine industry standards and empower individuals and industries to embrace a cleaner, more independent energy future.

We’ve revolutionized the lithium battery manufacturing industry in North America. Our extensive intellectual property portfolio includes patented cell manufacturing processes, cutting-edge battery pack design, and comprehensive system integration. We consistently push the boundaries of what’s possible in sustainable energy solutions.

Dragonfly Energy employing X-Ray Diffraction (XRD)

What’s more, an unwavering commitment to research and development enables us to shape the future of renewable, safe, and reliable energy storage systems. Our novel domestic dry electrode battery cell manufacturing technology offers a promising path to unlock new energy storage applications beyond traditional battery pack solutions.

We also prioritize performance and efficiency through automation and stringent quality control. Our Integrated Systems Approach seamlessly incorporates batteries with complementary components to deliver comprehensive energy storage units. Through our advanced engineering expertise, we customize solutions to the specific needs of leading original equipment manufacturers (OEMs) across various industries. This demonstrates our adaptability and technical proficiency.

Driven by a commitment to sustainability and innovation, we strive to contribute to a cleaner and greener global future.

Day 2. Battle Born: The Heart of Reliable Power Solutions

Battle Born is a leading advanced lithium-ion (LiFePO4) battery technology provider. Trusted for off-grid applications, our comprehensive product line powers a variety of industries, including:

  • Recreational vehicles
  • Off-grid residential
  • Marine markets
  • Heavy duty trucking
  • Industrial solar integration
Battle Born LiFePO4 deep cycle batteries

Since 2014, we’ve shifted from antiquated lead acid to cutting-edge sustainable energy solutions with lithium technology. To us, green energy is a core focus, not just a passing trend. Our team is dedicated to offering innovative, powerful, reliable, and accessible energy storage solutions that enable widespread renewable energy adoption.

To support our industry-leading lithium batteries, we have a team committed to delivering exceptional customer experience. Our technical sales specialists will answer any questions, from installation guidance to system recommendations. This ensures the best solution for your needs.

Day 3. LiFePO4 Batteries: Safety Meets Performance

While lithium-ion batteries are a massive step up from lead-acid chemistries, LiFePO4 (lithium iron phosphate) batteries take battery innovation to a whole new level. LiFePO4 batteries are known for their superior safety, stability, and performance.

They can withstand extreme temperatures and remain stable in rough terrain, making them ideal for marine applications, trucking, RVs, and other remote or mobile applications.

Sailboat equipped with a lithium power system

Lithium-ion batteries don’t require any maintenance. They have a long lifespan, reduced charging time, and slow self-discharge rates. In addition, they can handle high discharge currents and multiple electrical devices at once.

Because LiFePO4 batteries operate 10 times longer than their lead-acid counterparts, they have a lower cost per kilowatt-hour. These batteries are perfect for 12-, 24-, or 48-volt deep cycle systems. The combination of high performance, long lifespan, efficiency, and sustainability makes LiFePO4 an attractive green energy storage technology.

Day 4. Non-Toxic Battery Packs: The Eco-Friendly Advantage

LiFePO4 batteries are significantly greener than other varieties. The materials used, such as iron phosphate and lithium, are far less toxic than the lead, acid, and heavy metals in lead-acid batteries. This makes LiFePO4 batteries much safer to handle and transport, reducing the risk of environmental contamination.

lithium iron phosphate battery cells

The lower toxicity also makes LiFePO4 batteries easier and safer to recycle at the end of their useful life. It minimizes the release of harmful chemicals into the environment. The valuable lithium, iron, and phosphate can be recovered and reused during the recycling process to produce new batteries. This circular economy approach helps lessen the environmental impact of battery production and disposal.

In contrast, lead-acid batteries contain highly toxic materials that can leach into soil and groundwater if disposed of improperly. The recycling process for lead-acid batteries is also more complex and energy-intensive. If not handled carefully, there’s a greater potential for environmental harm.

Overall, the non-toxic materials and a more efficient recycling process make LiFePO4 batteries far more sustainable than traditional lead-acid batteries. This reduced environmental impact is a key advantage. The demand for sustainable energy solutions and rechargeable batteries continues to grow for electric vehicles (EVs), renewable energy storage, and marine vessels.

Day 5. Advanced Dry Electrode Manufacturing: A Game Changer in Production

Dragonfly Energy’s dry electrode LiFePO4 manufacturing process offers numerous benefits for battery users and the environment. Unlike the traditional processes used for lithium batteries, the dry electrode process removes the need for toxic solvents and reduces energy consumption.

The dry process uses materials more efficiently, reducing waste, environmental impact, and the energy required for manufacturing. The technology also allows for more compact and energy-dense battery designs. This improved efficiency further enhances the sustainability of dry electrode LiFePO4 batteries.

In short, the dry electrode manufacturing process significantly lowers the environmental impact of LiFePO4 batteries across their entire lifecycle, from production to recycling.

Day 6. The Importance of Domestic Production in Battery Manufacturing

Dragonfly Energy is proudly American, founded and operating in Nevada, North America’s lithium capital. Domestic battery manufacturing is crucial to our vision for several key reasons.

First, it supports national energy security and independence. Relying on imported batteries leaves a country vulnerable to supply chain disruptions, geopolitical tensions, and potential shortages. But with robust domestic battery production, a nation can ensure a reliable, secure source of energy storage technology that powers everything from EVs to consumer electronics.

Domestic battery manufacturing

Domestic battery manufacturing also creates high-skilled, well-paying jobs in the clean energy sector. This boosts economic growth and helps transition workers into future industries. Battery production requires advanced technical expertise in chemistry, engineering, and advanced manufacturing—highly demanding and well-compensated skills.

Finally, domestic battery production supports the growth of complementary industries like renewable energy and electric vehicles. As these industries expand, a reliable domestic battery supply chain becomes even more critical to meeting demands and achieving sustainability goals.

In an era of global supply chain volatility and the urgent need to decarbonize our energy systems, the importance of domestic battery manufacturing cannot be overstated. It’s a strategic imperative for economic, energy, and national security.

Day 7. Smart Energy Storage Solutions for RVs and Marine Applications

As the demand for off-grid power and self-sufficiency continues to grow in the RV and marine industries, smart energy storage solutions have become essential. Dragonfly Energy and its Battle Born brand of batteries offer cutting-edge products that provide reliable, safe, and efficient power for recreational vehicles and boats.

Premium LiFePO4 sustainable energy solutions lie at the heart of our offerings. Compared to traditional lead-acid batteries, LiFePO4 batteries are significantly lighter. They also last longer, charge faster, and offer deeper discharges without degradation. This makes them the ideal choice for the power-hungry needs of RVs and boats. What’s more, integration with renewable energy sources, such as solar, enhances the sustainability and efficiency of your system.

We’ve developed a range of smart LiFePO4 battery products and accessories equipped with our proprietary Dragonfly IntelLigence technology to optimize energy management to complement these high-performance batteries. This technology lets you monitor your entire electrical system from a mobile app. You can make informed decisions about your power consumption with real-time data on battery levels, charge status, system health, and historical usage.

smart battery products and accessories equipped with the proprietary Dragonfly IntelLigence technology

In the marine industry, boaters can enjoy peace of mind with a reliable, low-maintenance power source that can withstand the harsh environment on the water. Battle Born’s compact, modular design allows for easy installation, even in tight spaces. In addition, the advanced safety features provide protection against the unique challenges faced on the water.

By combining cutting-edge technology, uncompromising quality, and a deep understanding of the RV and marine sectors, we equip recreational enthusiasts to venture further and stay powered for longer.

Day 8. Off-Grid Living Made Easy

Battery energy storage is a critical component for powering off-grid living. Advanced battery technologies like the LiFePO4 systems that Dragonfly Energy offers are reliable, long-lasting energy storage to support the power needs of remote homes, cabins, and other off-grid applications.

LiFePO4 batteries provide several key advantages over traditional lead-acid batteries commonly used in off-grid systems. They’re lighter and more compact, taking up less space. The batteries can also be deeply discharged without damage to provide more usable energy capacity.

Most importantly, LiFePO4 batteries are safer than other chemistries, with a lower risk of thermal runaway and fire. This makes them well-suited for use in remote locations without 24/7 monitoring. However, with smart lithium batteries and accessories, you can remotely monitor your entire electrical system from a mobile app. This provides real-time data on system health, giving you peace of mind and the ability to optimize your off-grid power use planning.

inside an off-grid home powered by LiFePO4 batteries

When paired with renewable energy sources like solar panels, LiFePO4 battery banks can store excess energy generated during the day for use at night or during periods of low sunlight. This allows off-grid homes to maintain reliable, consistent power without relying on noisy, emissions-producing generators or being dependent on fuel accessibility.

Under the Battle Born brand, Dragonfly Energy offers an all-in-one, pre-configured, sustainable energy solutions. The pre-wired design of the lithium power pack series streamlines integration and minimizes complexity. You can even scale and customize the system for diverse application needs.

Off-grid homeowners can enjoy the freedom and independence of self-sufficient living by investing in high-quality, long-lasting battery storage. They can rest well knowing their power needs are met sustainably and reliably.

Day 9. Home Energy Storage Systems: Empowering Your Energy Independence

Home battery storage systems offer several key benefits for residential use. For one, they provide backup power during grid outages, ensuring critical appliances, lights, and devices stay operational even when the main power supply is disrupted. This is especially valuable during severe weather events or other emergencies leading to extended blackouts. A home battery system allows residents to maintain access to essential services and avoid the inconvenience and potential safety risks associated with power failures.

In addition to backup power, home battery storage systems enable homeowners to manage their energy usage and costs better. By storing excess energy generated from rooftop solar panels or other renewable sources, residents can draw on this stored power during peak demand periods when electricity rates are higher. This can lead to significant savings on monthly utility bills.

What’s more, some battery systems automatically discharge stored energy to the grid during high demand. Homeowners can then earn credits or revenue from their excess capacity.

Home battery storage also contributes to increased energy independence and sustainability. By reducing reliance on the main power grid, which often relies on fossil fuels, battery systems help lower a home’s carbon footprint and promote the adoption of clean, renewable energy sources. This aligns with growing consumer demand for eco-friendly, self-sufficient energy solutions.

In essence, the combination of backup power, cost savings, and environmental benefits makes home battery storage an increasingly attractive option for residential energy management.

Day 10. The Role of Battery Technology in Renewable Energy Integration

Integrating renewable energy sources, such as solar and wind power, is crucial for transitioning to a more sustainable energy future. But the intermittent nature of these renewable sources presents a significant challenge. This is where lithium battery technology plays a crucial role.

Battery storage systems can help overcome the inherent variability of renewable energy generation. By storing excess energy produced during periods of high output, batteries can release that energy when demand is high or when renewable sources aren’t generating sufficient power. This allows for a more consistent and reliable renewable electricity supply, reducing the need for fossil fuel-based backup power.

Moreover, advancements in battery technology, such as increased energy density, improved efficiency, and reduced costs, are making sustainable energy solutions more accessible and viable for many applications, from industrial and residential to transport and work vehicles. These systems provide backup power during grid outages and enable better energy consumption management. They allow businesses and individuals to maximize the benefits of their renewable energy investments.

In addition, integrating battery storage with renewable energy systems can help balance the grid. Specifically, it smooths out fluctuations in supply and demand and reduces the need for costly infrastructure upgrades. This can lead to a more resilient and efficient energy system better equipped to handle the growing reliance on renewable sources. Ultimately, it paves the way for a more sustainable energy future.

Day 11. Lightweight Lithium Batteries: Enhancing Mobility and Efficiency

LiFePO4 batteries are an increasingly attractive option for marine, transport, trucking, oil and gas industries, and recreational applications. One of the primary benefits of these batteries is their reduced weight—approximately one-fifth of lead-acid batteries for the same amount of usable power. This is particularly important in marine and transport applications, where weight savings can improve fuel efficiency, increase payload capacity, and enhance vehicle performance.

The lightweight nature of LiFePO4 batteries also makes them well-suited for use in oil and gas operations, where equipment and machinery must be easily maneuverable and transportable. Oil and gas operations depend on electronic systems for monitoring, control, and communication. Batteries and generators power essential backup systems, emergency lighting, and other critical equipment on platforms, drilling rigs and along pipeliens. The compact and lightweight design of LiFePO4 units makes them ideal for these applications.

Not to mention, the convenience of a lightweight, quiet, and easily portable power supply is perfect for camping, day trips, and safety-critical applications like emergency backup power systems.

Day 12. The Future of Electric Vehicles With Dragonfly Energy’s Lithium Batteries

Renewable battery technology and battery energy storage systems are crucial in enabling and enhancing the widespread adoption of electric vehicles. As the demand for eco-friendly transportation continues to grow, advancements in battery technology are addressing some of the key challenges associated with EV ownership.

One of the primary benefits of renewable battery technology in EV charging is integrating renewable energy sources, such as solar and wind power, into the charging infrastructure. By coupling EV charging stations with on-site battery storage and renewable energy generation, clean, sustainable electricity can power the charging process. That is, rather than the grid’s often fossil fuel–dependent power supply. This reduces the environmental impact of EV charging but also helps to alleviate the strain on the electrical grid during peak demand periods.

What’s more, battery energy storage systems can optimize the charging process, providing a buffer between the grid and the EV. When electricity demand is high, battery systems help to level out fluctuations in the grid and enable more efficient and cost-effective charging. This flexibility also allows EV owners to take advantage of time-of-use electricity rates, further reducing their vehicles’ operating costs.

As the EV market continues to grow, integrating renewable battery technology and energy storage will be crucial in creating a more sustainable and resilient charging infrastructure. This can ultimately support the widespread adoption of electric vehicles.

Day 13. Sustainability Initiatives in Underserved Communities

Energy poverty significantly impacts the health, education, economic opportunities, and overall quality of life in underserved, remote, and developing communities. While increasing energy access is crucial, it must be done environmentally sustainably.

Sustainable energy solutions like solar-powered systems and advanced battery technologies can help bridge this energy access gap. By providing reliable, clean, and affordable electricity, these solutions unlock many benefits that can transform lives and drive sustainable development.

Advanced battery technologies enable the integration of renewable energy and make energy storage solutions more accessible, even in off-grid locations. They’re designed to be scalable and durable, reducing maintenance needs in remote areas. These innovations are improving the quality of life across sectors like healthcare, education, and agriculture.

For instance, they provide reliable power for portable medical devices, communication systems, lighting, educational technology, online learning, and irrigation systems. In addition, stable power supplies boost economic activities, facilitate job creation, and support the growth of local industries.

With advanced battery technology and tailored sustainable energy solutions, Dragonfly Energy supports developing and integrating renewable energy microgrids and other off-grid setups. We’re committed to driving progress, responsibility, and sustainability. Our integrated approach combines batteries and ancillary systems for complete energy storage solutions. We actively collaborate with local and national initiatives, educational institutions, non-profit organizations, and veterans’ groups to drive positive change.

Day 14. Workforce Development: Investing in a Diverse Future

Dragonfly Energy’s commitment to building a diverse and inclusive team is reflected in our workforce. Racial and ethnic minorities account for 40% of our employees. The company is overseen by a diverse and experienced Board of Directors, ensuring adherence to the highest ethical standards. This promotes accountability, transparency, and responsible business conduct.

We actively invest in employee training and development programs to provide opportunities for growth and advancement. With a company promotion rate of over 25%, Dragonfly Energy demonstrates its dedication to creating equal opportunities for all employees, regardless of their background.

By prioritizing diversity and investing in our workforce, Dragonfly Energy aims to thrive in the clean energy transition and drive meaningful change in the industry.

Day 15. Customer Testimonials: Real Stories from Satisfied Users

With more than 300,000 LiFePO4 battery packs sold in the past four years, Dragonfly Energy has brought sustainable energy solutions to diverse industries.

The Lodge at Jackson Meadows is a 3,000-square-foot luxury off-grid property in the Sierra Nevada mountains. Dragonfly Energy and Battle Born Batteries equipped the premises with a robust off-grid power system, including nearly 30kW of solar and 207kWh of lithium batteries. This setup powers critical systems like water heating, radiant flooring, saunas, jacuzzis, well pumps, and advanced network and security infrastructure. The comprehensive system ensures reliable, full-time power for this remote, luxury, off-grid location.

Lodge at Jackson Meadows

Another satisfied customer who has become a passionate advocate of Dragonfly Energy’s lithium battery technology is long-haul truck driver Mark Raatz. Mark transitioned from working with a carrier to becoming an owner-operator. After purchasing his own heavy-duty truck, Mark discovered the inefficiencies of the sleeper cab’s operating system, which relied on lead-acid batteries. This forced him to constantly idle his truck (consuming excess fuel), incur high maintenance costs, and frequently replace the batteries.

long-haul truck driver Mark Raatz.

Upon discovering lithium batteries, Mark knew they were the perfect solution for his long-haul truck. Mark can now continuously power the necessities in his sleeper cab without idling and wasting fuel. In addition, the batteries are compact and lighter and don’t require maintenance or frequent replacement. As one of the first in the trucking industry to upgrade to lithium batteries, Mark loves sharing his knowledge with other drivers and discussing the future of the long-haul trucking industry.

Day 16. Comparing Battery Technologies: Why Choose Lithium?

In the previous sections, we mentioned some remarkable benefits of lithium-ion battery technology. Here’s a comprehensive list of why LiFePO4 battery chemistry is significantly superior to lead acid:

  1. They have a significantly longer lifespan with the capacity for more charge cycles.
  2. LiFePO4 batteries charge up to five times faster.
  3. At approximately one-fifth of the weight for the same amount of power, LiFePO4 batteries have a high energy density and take up much less space.
  4. They have a 100% depth of discharge without causing damage.
  5. These batteries are recyclable.
  6. LiFePO4 batteries are more environmentally friendly since they don’t contain toxic heavy metals like lead or cadmium.
  7. LiFePO4 batteries feature the safest and most stable lithium battery chemistry.
  8. Dragonfly Enery’s Battle Born Batteries feature an automated internal battery management system.
  9. They’re available with optional internal heating technology.
  10. LiFePO4 batteries have a flat discharge curve, meaning they maintain a more consistent voltage throughout use. This results in more usable capacity than other battery types.

In addition, if you want to upgrade from lead-acid, you don’t need to change your entire setup. Dragonfly LiFePO4 batteries offer an easy and instant drop-in replacement solution. Our batteries come with a 10-year warranty, giving you peace of mind that your investment is of superior quality.

Day 17. Sustainable Practices in Manufacturing

At Dragonfly Energy, our commitment to providing sustainable energy solutions is fulfilled in the products we provide and in how we manufacture them. We minimize our environmental impact by implementing the following sustainable manufacturing practices:

  • Eliminating toxic solvents in cell manufacturing
  • Prioritizing waste reduction
  • Promoting recycling initiatives
domestic battery manufacturing

Our Nevada-based lithium battery facility is the home of Dragonfly Energy research, manufacturing, and production. We employ skilled technicians, superior quality control, and in-house manufacturing processes to ensure responsible manufacturing processes. Additionally, we optimize automation to maximize efficiency.

Our dry electrode manufacturing process uses 25% less energy than conventional methods, reducing environmental impact during key production stages and reducing the overall cell production process’s carbon footprint by 9%. What’s more, the process eliminates toxic solvent use, allowing us to produce PFAS-free electrodes.

Our LiFePO4 battery pack products are also non-toxic and designed for safety and sustainability. They feature cobalt-free materials, eliminating harmful emissions and providing exceptional cycle life​.

Day 18. The Importance of Recycling Lithium Batteries

Recycling lithium-ion batteries is crucial for sustainability and environmental protection. These batteries contain valuable metals like lithium and nickel that can be recovered and reused, reducing the need to mine virgin materials. This conserves natural resources and significantly reduces the energy required compared to extracting new materials.

Proper recycling also prevents the leaching of toxic substances into soil, water, and air when batteries are improperly discarded. This protects ecosystems and public health.

Many regions have implemented battery recycling programs to encourage responsible disposal and reclamation. These programs provide financial incentives for businesses, such as tax credits, cost savings on hazardous waste disposal, and revenue from selling recovered materials. They also help companies meet environmental regulations and enhance their sustainability credentials, boosting brand image and customer loyalty.

As the use of lithium-ion batteries continues to grow, especially in electric vehicles and renewable energy storage, recycling will become increasingly vital. Expanding recycling infrastructure and participation will be crucial to realizing the full environmental and economic benefits of this technology.

Day 19. Innovations on the Horizon: What’s Next for Dragonfly Energy?

Dragonfly Energy recently launched smart LiFePO4 batteries equipped with Dragonfly IntelLigence technology for the heavy-duty trucking industry. This innovative battery technology enables fleets and truck drivers to access real-time monitoring of their battery systems via an app.

Dragonfly IntelLigence technology for the heavy-duty trucking

Dragonfly IntelLigence technology offers comprehensive visibility into your power system. It provides live data on individual batteries and the entire system. The technology uses a wireless mesh network and Bluetooth connectivity to monitor battery life, set custom alerts, and access usage history through the Battle Born mobile app. This gives you greater peace of mind and control over your power system.

Additionally, when paired with smart lithium batteries, the Battle Born HUB can transmit battery data via external communication protocols like RV-C. This enables OEMs to integrate seamlessly with in-cab displays and fleet management systems.

Smart lithium batteries are an optional upgrade to the Battle Born All-Electric APU, now available to fleets and OEMs. What’s more, public availability to owners and operators will be available before the new year.

We aim to continue helping fleets reduce costs and improve sustainability through innovative and efficient battery solutions. In addition, 2025 holds exciting prospects as we present sustainable solutions to the oil and gas sector, helping them meet sustainability targets and reduce their environmental impact.

Day 20. Dragonfly Energy FAQs: Your Questions Answered

Let’s look at some of the common questions we get about our products.

Why are LiFePO4 batteries more expensive than other types?

While the upfront costs of LiFePO4 batteries may seem higher than lead-acid batteries, they’re cheaper in the long run. If you consider the cost of the battery in relation to battery life, the higher price accounts for a significantly longer lifespan and more charge cycles.

It also includes other benefits such as higher energy density, improved safety, reduced maintenance, a built-in battery management system (BMS), and faster charge time. Finally, the batteries come with a 10-year warranty.

How should LiFePO4 batteries be stored?

Our batteries are designed for hassle-free storage. Disconnect the enable wire and ensure the battery is at least 50% charged. For long-term storage, it’s ideal to fully charge the battery before storing.

What is a battery management system?

A BMS is the brain inside your battery, protecting the lithium cells from damage. It does this in the following ways:

  • It automatically shuts off the system if there’s a short to prevent unsafe operating conditions and thermal runaway.
  • The BMS regulates power output.
  • It keeps battery cells in balance, reducing maintenance on your part. The BMS automatically reduces the charging rate in topped-off cells, allowing the rest of the cells to catch up. This helps the pack maintain its quality and efficiency.

Day 21. How To Choose the Right Battery for Your Needs

Whether your energy storage system is for an RV, marine system, or off-grid living, you’ll want to select the best solution for your needs. Consider the following:

  • How big is the battery? How much does it weigh, and what is its energy density?
  • What is the battery’s charging time and discharging depth?
  • Is the battery system suitable for the temperature range you’ll be using (especially extreme temperatures)?
  • Can the system’s energy capacity meet your power needs for an extended period?
  • Is the battery system compatible with your existing infrastructure (including renewable energy sources, backup generators, and power grids, if applicable)?
  • How much maintenance does the system require?
  • How often do batteries need to be replaced?
  • Does the system provide instant backup power?
  • Do the system technologies have a proven record of performance?
  • Does the battery system come with a warranty?
  • Does the system have extended features such as remote battery monitoring and an internal monitoring system?
  • Is the system compliant with relevant regulations and manufacturing standards?
  • Are the batteries recyclable?

Day 22. The Environmental Impact of Choosing Sustainable Products

Advanced battery technologies enable the wider adoption of renewable energy sources and transform a diverse range of industries. One of the most impactful areas is the electrification of transportation.

Lithium-ion batteries are helping drastically reduce greenhouse gas emissions and air pollution in the transportation sector by powering EVs. This is a major contributor to climate change and urban smog. The superior energy density and performance of these batteries also make them ideal for powering electric aircraft, marine vessels, and other modes of transportation.

Beyond transportation, lithium batteries are crucial in integrating renewable energy into the power grid. Their ability to efficiently store energy from solar, wind, and other clean sources enables a more reliable and sustainable electricity supply, reducing reliance on fossil fuels. This is particularly important for remote or off-grid applications, where lithium-based batteries can provide a clean, resilient, cost-effective energy solution.

What’s more, these battery technologies’ long lifespan and reliability mean less waste and resource consumption over time. By contrast, lead-acid batteries have a much shorter lifespan and are more difficult to recycle, leading to greater environmental strain.

Day 23. Year-End Review: Celebrating Our Achievements in Sustainability

Dragonfly Energy remains steadfast in advancing lithium-ion battery innovation despite challenging economic conditions. We’ve ended the year proudly with great achievements behind us, including a pilot demonstration of methane reduction power solutions for the oil and gas industry. With 2024’s strategic expansion into the oil and gas industry and heavy-duty trucking, our resilience and vision continue to expand.

Our Dragonfly IntelLigence technology continues to develop across sectors, solidifying our reputation as sustainable energy solutions innovators and industry leaders. Also, Dragonfly Energy’s Battle Born Batteries have recently been made available through Keystone Automotive Operations. The company is a leading distributor in the RV, automotive, and marine sectors. We continue to diversify and strengthen partnerships for a better energy future.

Day 24. Join Us on Our Journey Toward a Cleaner Future!

As we reach the end of our Dragonfly Energy Advent Calendar, we hope you’ve been inspired by the innovative, sustainable energy solutions we’ve explored over the past 24 days. From pioneering battery technologies and eco-friendly manufacturing processes to empowering off-grid living and renewable energy integration, we’re committed to powering a greener, more resilient future.

By choosing Dragonfly Energy and Battle Born Batteries, you’re not just investing in reliable, high-performance power—you’re becoming a part of the solution. Our products enable the widespread adoption of renewable energy, reduce environmental impact, and support the transition to a more sustainable world.

We invite you to continue this journey with us. Explore our full range of lithium-ion and LiFePO4 battery systems, designed to meet the diverse energy needs of industries, communities, and individuals. Connect with our team to find the perfect sustainable energy solutions for your application, whether it’s powering your RV, boat, off-grid home, or commercial operations.

Together, we can make a meaningful difference in the fight against climate change and create a cleaner, more resilient future for generations to come. Join us in this mission and be a part of the Dragonfly Energy movement toward a sustainable tomorrow.

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