Latest news with #supercapacitor
Yahoo
2 days ago
- Automotive
- Yahoo
Supercapacitor Market worth $2.84 billion by 2030 - Exclusive Report by MarketsandMarkets™
DELRAY BEACH, Fla., Aug. 15, 2025 /PRNewswire/ -- The global supercapacitor market is projected to be valued at USD 1.35 billion in 2025 and reach USD 2.84 billion by 2030, registering a CAGR of 16.1% during the forecast period according to a new report by MarketsandMarkets™. This is driven by the increasing adoption of advanced energy storage systems across various sectors, such as automotive, consumer electronics, renewable energy, and industrial automation. Supercapacitors are gaining prominence due to their ability to deliver high power density, rapid charge-discharge cycles, and extended operational life, making them ideal for applications requiring quick energy bursts and enhanced reliability. The integration of supercapacitors in electric vehicles, smart grids, and backup systems is accelerating as energy systems become more decentralized and dynamic. In addition, material innovations, particularly in graphene and hybrid electrodes, are improving performance metrics and cost efficiency. With growing emphasis on energy efficiency, sustainability, and electrification, supercapacitors are emerging as a strategic technology to bridge the gap between batteries and traditional capacitors in next-generation power architectures. Download PDF Brochure: Browse in-depth TOC on "Supercapacitor Market" 112 – Tables60 – Figures230 – Pages Supercapacitor Market Scope: Report Coverage Details Market Revenue in 2025 $ 1.35 billion Estimated Value by 2030 $ 2.84 billion Growth Rate Poised to grow at a CAGR of 16.1% Market Size Available for 2021–2030 Forecast Period 2025–2030 Forecast Units Value (USD Million/Billion) Report Coverage Revenue Forecast, Competitive Landscape, Growth Factors, and Trends Segments Covered By Type, Capacitance Range, End User, and Region Geographies Covered North America, Europe, Asia Pacific, and Rest of World Key Market Challenge Lack of standardization across manufacturers Key Market Opportunities Emerging applications in wearables and IoT devices Key Market Drivers Rising adoption of electric vehicles Hybrid supercapacitors' segment is expected to account for a significant market share during the forecast period. The hybrid supercapacitors segment is projected to maintain a notable share of the supercapacitor market during the forecast period, driven by its ability to bridge the performance gap between electric double-layer capacitors (EDLCs) and batteries. Combining the high-power density of EDLCs with the energy storage capabilities of batteries, hybrid supercapacitors offer enhanced energy density and longer cycle life, making them increasingly attractive for various applications. Their growing deployment in electric vehicles, renewable energy systems, industrial equipment, and consumer electronics highlights their versatility and performance benefits. The segment is further supported by advancements in electrode materials—carbon-based composites and transition metal oxides—that enhance storage efficiency and reduce degradation. As industries prioritize sustainable and high-performance energy solutions, hybrid supercapacitors are preferred for applications requiring rapid power delivery and energy buffering. Ongoing R&D and increasing demand for miniaturized, cost-effective, and temperature-resilient energy storage devices reinforce the hybrid segment's role in the evolving energy landscape. 100 F–1,000 F segment is projected to exhibit the second-highest CAGR in the supercapacitor market from 2025 to 2030. The 100 F–1,000 F capacitance range segment is expected to record the second-highest CAGR during the forecast period, owing to its broad applicability across automotive, industrial, and renewable energy sectors. Supercapacitors within this range offer a balanced combination of energy density and power output, making them ideal for applications such as backup power solutions and grid stabilization. These capacitors are increasingly integrated into hybrid and electric vehicles (EVs) to manage peak power demands, reduce strain on batteries, and improve energy efficiency. Moreover, their suitability for power backup in smart meters, wind turbines, and industrial automation equipment drives their adoption. As manufacturers continue to optimize size, performance, and cost, this segment is emerging as a preferred choice for medium-duty energy storage applications. The ongoing shift toward electrification and smart infrastructure is expected to reinforce demand for supercapacitors within this capacitance range, supporting their sustained market presence. Inquiry Before Buying: North America is likely to hold a significant market share during the forecast period. North America is expected to hold a significant share of the global supercapacitor industry during the forecast period, supported by the increasing use of electric vehicles and the growing demand for energy-efficient consumer electronics. Supercapacitors are valued for their fast-charging ability, high power output, and long cycle life, making them ideal for applications in electric vehicles, wearables, and portable devices. Supercapacitors are increasingly used in regenerative braking systems and power backup units, supported by a mature automotive and consumer electronics industry. Ongoing research and development by local companies also contribute to innovation in new products. With the early adoption of advanced energy storage solutions and a steady push for reliable and sustainable power technologies, the region emerges as a hub for market players. It continues to shape the future of supercapacitor applications across key industries. Major companies operating in the supercapacitor companies include Maxwell Technologies (US), LS Materials (South Korea), Nippon Chemi-Con Corporation (Japan), Eaton (Ireland), and CAP-XX (Australia). 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Yahoo
15-06-2025
- Science
- Yahoo
Researchers make breakthrough that could change electric vehicles forever: 'This technology overcomes the shortcomings'
A team of researchers has developed a high-performance supercapacitor that overcomes the traditional limitations of energy density through the use of carbon nanotubes and conductive polymers. Supercapacitors have the ability to charge and deliver large amounts of energy quickly, and they are resilient enough to survive millions of charge and discharge cycles without much degradation. However, they have less energy density than conventional batteries, which means they're not useful over long periods of time without recharging. This has limited their use in practical applications, such as electric vehicles and drones, according to the National Research Council of Science and Technology in a report shared by TechXplore. Scott Donne, a supercapacitor and battery material researcher at the University of Newcastle in Australia, clarified where supercapacitors stand in comparison to other technologies. "You've got capacitors with high power but low energy; fuel cells with high energy but low power; and batteries sitting in the middle — which is why they are the most popular of the three," Donne told Chemistry World. Now, researchers led by Dr. Bon-Cheol Ku and Dr. Seo Gyun Kim of the Carbon Composite Materials Research Center at the Korea Institute of Science and Technology and Professor Yuanzhe Piao of Seoul National University have discovered a way to improve the energy density and power delivery of supercapacitors through the use of new materials. The combination of highly conductive single-walled carbon nanotubes and polyaniline polymer created a sophisticated fiber structure that lets their new supercapacitor store more energy while being able to release it at a faster rate, the report explained. "This technology overcomes the shortcomings of supercapacitors by using single-walled carbon nanotubes and conductive polymers," said Dr. Bon-Cheol Ku. Tests have shown that it maintains stable performance, even after 100,000 charge and discharge cycles, and that it's durable enough to function in high-voltage applications. This opens up the possibility for use in electric vehicles, where it could replace or complement existing lithium-ion batteries. The technology provides efficient power delivery along with fast charging capabilities that could improve overall EV range and performance. If you were going to purchase an EV, which of these factors would be most important to you? Cost Battery range Power and speed The way it looks Click your choice to see results and speak your mind. With a boost in efficiency and performance, these new supercapacitors could increase the appeal of EVs and help shift the tide away from gas-guzzling alternatives that burn dirty fuels. These composite fiber structures of the CNT-PANI design also provide high mechanical flexibility, which means they could be rolled and folded, according to the report. In the study, published in the journal Composites Part B: Engineering and shared by ScienceDirect, data showed that the cells maintained 100% retention, even after being folded 180 degrees. This resilience has helped the researchers create thin film-like structures, which could further expand supercapacitor use in next-generation electronics, such as wearables. The addition of low-cost polymers has also helped them lower production costs and create a plan for mass production across a variety of applications, paving the way for commercialization. "We will continue to develop and industrialize ultra-high-performance carbon fibers based on carbon nanotubes," said Dr. Bon-Cheol Ku. Join our free newsletter for weekly updates on the latest innovations improving our lives and shaping our future, and don't miss this cool list of easy ways to help yourself while helping the planet.
Yahoo
15-06-2025
- Science
- Yahoo
Researchers make breakthrough that could change electric vehicles forever: 'This technology overcomes the shortcomings'
A team of researchers has developed a high-performance supercapacitor that overcomes the traditional limitations of energy density through the use of carbon nanotubes and conductive polymers. Supercapacitors have the ability to charge and deliver large amounts of energy quickly, and they are resilient enough to survive millions of charge and discharge cycles without much degradation. However, they have less energy density than conventional batteries, which means they're not useful over long periods of time without recharging. This has limited their use in practical applications, such as electric vehicles and drones, according to the National Research Council of Science and Technology in a report shared by TechXplore. Scott Donne, a supercapacitor and battery material researcher at the University of Newcastle in Australia, clarified where supercapacitors stand in comparison to other technologies. "You've got capacitors with high power but low energy; fuel cells with high energy but low power; and batteries sitting in the middle — which is why they are the most popular of the three," Donne told Chemistry World. Now, researchers led by Dr. Bon-Cheol Ku and Dr. Seo Gyun Kim of the Carbon Composite Materials Research Center at the Korea Institute of Science and Technology and Professor Yuanzhe Piao of Seoul National University have discovered a way to improve the energy density and power delivery of supercapacitors through the use of new materials. The combination of highly conductive single-walled carbon nanotubes and polyaniline polymer created a sophisticated fiber structure that lets their new supercapacitor store more energy while being able to release it at a faster rate, the report explained. "This technology overcomes the shortcomings of supercapacitors by using single-walled carbon nanotubes and conductive polymers," said Dr. Bon-Cheol Ku. Tests have shown that it maintains stable performance, even after 100,000 charge and discharge cycles, and that it's durable enough to function in high-voltage applications. This opens up the possibility for use in electric vehicles, where it could replace or complement existing lithium-ion batteries. The technology provides efficient power delivery along with fast charging capabilities that could improve overall EV range and performance. If you were going to purchase an EV, which of these factors would be most important to you? Cost Battery range Power and speed The way it looks Click your choice to see results and speak your mind. With a boost in efficiency and performance, these new supercapacitors could increase the appeal of EVs and help shift the tide away from gas-guzzling alternatives that burn dirty fuels. These composite fiber structures of the CNT-PANI design also provide high mechanical flexibility, which means they could be rolled and folded, according to the report. In the study, published in the journal Composites Part B: Engineering and shared by ScienceDirect, data showed that the cells maintained 100% retention, even after being folded 180 degrees. This resilience has helped the researchers create thin film-like structures, which could further expand supercapacitor use in next-generation electronics, such as wearables. The addition of low-cost polymers has also helped them lower production costs and create a plan for mass production across a variety of applications, paving the way for commercialization. "We will continue to develop and industrialize ultra-high-performance carbon fibers based on carbon nanotubes," said Dr. Bon-Cheol Ku. Join our free newsletter for weekly updates on the latest innovations improving our lives and shaping our future, and don't miss this cool list of easy ways to help yourself while helping the planet.
The Independent
05-06-2025
- Business
- The Independent
How fruit peels could be used to jump-start your car
Imagine turning fruit waste into technology that stores electricity. This would reduce food waste and promote clean energy storage. Postdoctoral researcher Vianney Ngoyi Kitenge transformed mangosteen peels into specialised carbon materials that he used to make supercapacitor energy storage cells. He came up with a simplified way to do this, hugely reducing the cost. This breakthrough converts agricultural waste into valuable components for energy storage technology. He sets out how it works and what's needed to make it happen. What is a supercapacitor? Supercapacitors are a type of energy storage cell, similar to a battery, but with some key differences. They are standalone devices that store and release energy on their own. The biggest difference between a supercapacitor and a battery is how quickly a supercapacitor can charge and release energy. While batteries are designed to provide energy steadily over a longer period (like minutes or hours), supercapacitors are built to deliver energy very quickly – within seconds or minutes. This makes them perfect for applications that need a quick burst of power. You probably use supercapacitors every day without realising it. They help devices like flashes in your smartphone camera, portable jump starters for cars, fitness trackers, and smartwatches that need quick energy boosts to work efficiently. When making devices, the manufacturers choose whether to use a battery or a supercapacitor. This decision is based on how much power is needed and how fast it's needed. Most of the time, consumers aren't even aware of whether there's a battery or supercapacitor inside their devices. In energy storage cells where electrical charges are stored, electrodes are key. Supercapacitors' electrodes can be made with activated carbon. This can be made from biomass waste, such as coconut shells, banana peels, mangosteen peels, and coffee grounds. I used mangosteen peels in my research. What are supercapacitors used for? Apart from camera flashes and emergency doors, supercapacitors are useful in renewable energy. They act like super-fast energy sponges that can quickly soak up extra electricity when solar panels or wind turbines produce too much. They can also quickly release this energy when too little is produced. This helps keep the power flow steady even when it's not sunny or windy. Supercapacitors are still a small player in the energy storage world, with sales at around US$3 billion to US$4 billion yearly. To put this in perspective, the sales of lithium-ion batteries are US$50 billion to US$60 billion annually. Most are made in China and Japan, with some production in Europe and America, too. Supercapacitors haven't caught on widely yet. This is why scientists continue to work to increase supercapacitors' total energy storage while maintaining their speed and longevity. What role can mangosteen peels play? There has been little research into using the peels of the mangosteen fruit to create carbon. Yet, mangosteen trees grow abundantly from the east coast of South Africa to Somalia and Guinea, and they can withstand drought and rainstorms. Their peels naturally contain 35%-45% carbon-rich compounds. When processed through drying, oxygen-free heating and chemical activation, these peels transform into activated carbon. Through my research, I developed a simplified method to transform mangosteen shells into highly porous activated carbon. By combining the dried shells with potassium carbonate and directly heating to 700°C in a single step, I created valuable activated carbon from agricultural waste. Usually, creating activated carbon is a longer process of pre-heating fruit peels and reheating. So my method speeds the process up. This faster method makes activated carbon much cheaper by eliminating the initial five-hour heating phase at 400-500°C. This saves on electricity and reduces both production costs and the amount of time the furnace needs to operate. This then makes it more affordable for widespread commercial use. Using fruit peels to create activated carbon also prevents them from being dumped on landfill sites and instead uses them to make valuable energy storage devices. Just three to five kilograms of fruit peels are enough to produce hundreds of supercapacitors. The global demand for supercapacitors is projected to grow significantly over the coming decade. This demand will be driven primarily by electric vehicles, renewable energy systems, and consumer electronics markets seeking high-power, rapid-cycling energy storage solutions. Citrus peels can also be used to make activated carbon. Worldwide, the citrus juice industry generates 15 million tonnes of wasted peels, pulp and seeds every year. This waste could be used to make supercapacitors. What's needed to make this happen? Some companies are already turning food and agricultural waste into activated carbon. For example, Haycarb, based in Sri Lanka, turns coconut shells into activated carbon. Takachar in the US is also developing small-scale technology to turn agricultural waste into useful products like activated carbon. In Africa, fruit processing plants could set up facilities to turn their waste into activated carbon. They could then sell it to energy storage companies or other industries that need it. To make this happen, experts are needed to further develop the science. Governments and the private sector will need to fund equipment and facilities. Then, the factories making supercapacitors need to be connected with industries that could buy them (electric vehicles, renewable energy and electronics manufacturers). Making supercapacitors from fruit peels could create jobs and support Africa's renewable energy goals.
Zawya
21-05-2025
- Automotive
- Zawya
Enercap by Apex Energy and ROX Motor forge UAE-based partnership to pioneer sustainable EV energy storage
Enercap's locally developed supercapacitor energy storage system to power ROX's next-generation electric vehicle lineup, delivering high performance with UAE-engineered innovation. Partnership accelerates local EV manufacturing, circular supply chains, and next-generation energy tech. Strategic alignment with national priorities including Operation 300Bn, UAE Industry 4.0, and the Net Zero by 2050 initiative, advancing industrial resilience and clean technology leadership. Abu Dhabi: Enercap by Apex Energy, the UAE based supercap energy storage manufacturer and ROX Motor, formalized a strategic partnership during the Make it in the Emirates (MIITE) 2025. Aligned with national strategies such as Operation 300Bn, UAE Industry 4.0, and the Net Zero by 2050 initiative, this agreement establishes a pathway for deeper localization, industrial growth, and regional integration, while reinforcing our long-term commitment to the UAE's industrial development and sustainable mobility ambitions. Enercap's energy storage systems are designed, developed and manufactured in the UAE. ROX's collaboration with Enercap will enable an advanced nonchemical supercapacitor-based energy storage to be applied to the ROX vehicle range. This will enable extended range, fast charging and discharging, no thermal runaway as well as an environmentally sustainable energy storage system with a zero degradation, extended long life. Enercap's partnership with ROX will enable the company to deploy into the EV sector which accounts for >70% of the global market share in energy storage. Enercap delivers an energy storage system that increases vehicle range, supports a 6-minute 100% charge, is an environmentally sustainable product using synthetic graphene as the main material in its energy storage system. Ahmed Amer Omer, MD Apex Investment PSC and Enercap said: " This partnership marks a significant milestone in advancing clean, high-performance energy storage within the EV sector. By combining Enercap's breakthrough supercapacitor technology with ROX Motor' EV platform, we are enabling faster charging, greater efficiency, and more sustainable mobility. It also reflects our long-term commitment to industrial innovation, local manufacturing, and building a resilient, future-ready supply chain.'' Jarvis Yan, Founder and CEO, ROX Motor added: '' At ROX Motor, we are committed to pushing the boundaries of electric mobility—performance, design, and sustainability must move together. Partnering with Enercap allows us to integrate cutting-edge energy storage that aligns with our philosophy of innovation without compromise. This is more than a technical upgrade; it's a strategic leap toward the next generation of clean, efficient transport.'' The partnership will drive the demand for high-performance battery technologies, integrate lightweight and recyclable aluminum components, and localize vehicle manufacturing and assembly, this supports Enercap's broader ESG agenda helping to build a robust, closed-loop supply chain. These initiatives reinforce the partnerships long-term commitment to regional industrial development, while enhancing the driving experience for users. About Enercap: At Enercap, we are revolutionizing energy storage with cutting-edge technology, advanced manufacturing, and a steadfast commitment to sustainability. Our expertise spans across manufacturing, research & development, and industry collaborations, ensuring that we deliver high-performance energy solutions tailored for a sustainable future. About ROX Motor: Founded in 2021, ROX Motor is committed to becoming the leading new energy vehicle brand for outdoor lifestyle enthusiasts worldwide by 2030. In August 2023, the company launched its first model, ROX 01 – a luxury all-terrain SUV that seamlessly integrates everyday comfort, off-road performance, and versatile outdoor lifestyle experiences. By December, customer deliveries began, offering users a vehicle equally suited to urban commuting, long-distance travel, wilderness expeditions, and immersive camping adventures. In April 2024, ROX Motor made its international debut at the Abu Dhabi Auto Show with ROX 01, marking the start of its global journey - rooted in China, envisioned for the world. To date, ROX Motor has entered nearly 30 global markets across the Middle East, Central Asia, and Africa, earning widespread recognition and acclaim from local consumers.
