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市场调查报告书
商品编码
1671212
电池技术全球市场:依电池类型、控制技术、最终用户、地区、机会、预测,2018年至2032年Battery Technology Market Assessment, By Battery Type, By Control Technology, By End-user, By Region, Opportunities and Forecast, 2018-2032F |
全球电池技术市场规模预计将从2024年的1165.1亿美元成长到2032年的2089.1亿美元,预测期内(2025-2032年)的年复合成长率为 7.57%。由于电池技术在实现向清洁能源和永续交通的转变中发挥关键作用,因此近年来市场经历了显着成长。电池技术需求的主要驱动力是电动车(EV)领域。此外,随着世界各国政府制定减少碳排放和鼓励采用电动车的政策,这将进一步增加对先进电池解决方案的需求,扩大电池技术领域的市场规模。
此外,再生能源产业寻求投资高效的能源储存解决方案,以应对未来各种能源的间歇性。电池技术推动电池技术在市场上的采用,因为它可以储存白天产生的多余能量并将其用于尖峰需求。新兴国家对消费性电子设备的需求不断成长,推动了市场电池技术的快速发展。总之,电动车、消费性电子产品、再生能源整合与储存以及政府永续发展计画的成长可能会在未来几年推动电池技术市场的成长。
例如,2025年1月,根据环保基金和WSP美国的统计,美国电动车製造业受到约2,000亿美元的投资刺激,导致数十家新厂投产。这些设施提供了数以万计的就业机会,尤其是在共和党代表的地区。到2024年底,229个电动车和电池製造计画将获得 1,976亿美元的投资,其中 57个已经投入生产。这些计画预计到2028年将实现年产470万辆电动车和1,200万颗电池的目标。联邦政策,特别是《通膨削减法案》大幅加速了这一成长,创造了就业机会并促进了美国经济的发展。许多美国製造的电动车有资格享受联邦税收抵免,新车、卡车和 SUV 可享受 7,500 美元的抵免,二手车可享受最高 4,000 美元的抵免。
本报告研究了全球电池技术市场,提供了市场概述,依电池类型、控制技术、最终用户、区域的趋势和进入市场公司的概况。
Global battery technology market is projected to witness a CAGR of 7.57% during the forecast period 2025-2032, growing from USD 116.51 billion in 2024 to USD 208.91 billion in 2032. The market has experienced significant growth in recent years as battery technology plays a critical role in enabling the transition to clean energy and sustainable transportation. The primary factor that drives the demand for battery technology is the electric vehicle (EV) segment. Moreover, governments across the globe are creating policies to mitigate carbon emissions and encourage EV adoption, further expediting the requirement for advanced battery solutions, thus augmenting the market size of the battery technology sector.
Additionally, the renewable energy sector is looking to invest in efficient energy storage solutions for addressing the future intermittency from various sources of energy. Battery technology can store the extra energy generated during the daytime, which could be utilized during the peak hours demands which drives the adoption of battery technology in the market. The demand for consumer electronics devices is expanding in developing countries, which contributes to the rising battery technology growth in the market. In conclusion, the growth of EVs, consumer electronics, renewable energy integration and storage, and sustainability initiatives by the government will fuel battery technology market growth in the coming years.
For instance, in January 2025, as per the Environmental Defense Fund and WSP United States, United States electric vehicle manufacturing, spurred by nearly USD 200 billion in investments, has led to production at dozens of new plants. These facilities are creating tens of thousands of jobs, particularly in districts represented by Republicans. By the end of 2024, USD 197.6 billion had been invested in 229 EV and battery manufacturing projects, with 57 already in production. These projects are projected to enable the production of 4.7 million EVs and enough batteries for 12 million EVs annually by 2028. Federal policies, especially the Inflation Reduction Act, have significantly accelerated this growth, driving job creation and economic benefits across the nation. Many made-in-America electric vehicles are eligible for federal tax credits for USD 7,500 for new cars, passenger trucks and SUVs and up to USD 4,000 for used ones.
Growth in Electric Vehicles (EVs) Sector Augmenting Market Growth
The growth in the electric vehicle (EV) sector is a major driver for battery technology in the global market. Several factors contribute to the rising demand for battery technology, such as consumer desire for environmentally friendly transportation vehicle, government policies, and environmental restrictions, which lead to the rapid expansion of EV adoption. Governments around the world are enforcing stricter emissions laws and providing incentives, including tax breaks and subsidies, to promote the use of EVs, which fuels the demand for battery technology in the market.
The EV segment primarily relies on battery technology for power and performance, thereby driving the demand for battery technology in the global market. Furthermore, advanced battery technology provides improved EV performance and offers longer ranges and faster charging times, which drives the demand for battery technology in the market. In addition, strategic collaborations between EV manufacturers, battery manufacturers, and energy suppliers are contributing to the growth of the battery technology market in the coming years.
For instance, in August 2024, Samsung SDI Co., Ltd. finalized and signed an agreement with General Motors to establish a joint venture to supply electric vehicle (EV) batteries in the United States. Both companies will invest around USD 3.5 billion to build a new battery cell manufacturing plant with an initial annual production capacity of 27GWh initially, targeting mass production in 2027. Furthermore, the annual capacity is expected to rise to 36 GWh under the following expansion plans. This development will help the company to increase its footprint globally.
Upcoming Advancements in Battery Technology Creating Market Opportunities
The upcoming advancements in battery technology can address the current limitations of battery products and enhance their performance across various applications. The advancement in solid-state batteries replacing the liquid electrolyte with a solid material offers higher energy density and improved safety of the battery products. The advanced battery technology improves faster charging time and enhances the safety of the battery products, which is crucial for electric vehicles and portable electronics.
Furthermore, the upcoming sodium-ion batteries are gaining attraction due to their cost-effectiveness as compared to lithium-ion batteries for large-scale energy storage, which lower the dependency on scarce materials like lithium and cobalt. Battery manufacturers are adopting innovative materials such as carbon nanotubes, silicon anodes, and advanced cathodes like nickel-cobalt-manganese (NCM) and lithium iron phosphate (LFP), which are improving the efficiency and overall performance of the battery products, thereby creating the market opportunity for growth in the coming year. In addition, the emergence of flow batteries and organic-based batteries will provide the battery technology market growth in the coming year.
For instance, lithium-ion battery have faced significant technological advancement in 2024. The advancement has enhanced battery lifespan and efficiency. Additionally, advancement helped in integration of nanomaterials such as silicon nanoparticles into battery electrodes which revolutionize the capacity of the lithium-ion battery, which drives the demand for batteries in devices, vehicles, and other applications, thus contributing to the rising battery technology market size in the coming years.
Lithium-ion Batteries to Dominate the Global Market
Lithium-ion batteries have experienced a high adoption rate during the forecast period, making this segment dominant in the global market. These batteries are preferred over traditional battery technologies due to their superior energy density features. Lithium-ion batteries can store more energy in a smaller and lighter package, which makes the technology ideal for various automotive and consumer electronic applications.
Lithium-ion batteries have a longer cycle life, allowing them to be charged and discharged multiple times without significantly impacting efficiency. Lithium-ion batteries dominate the electric vehicle sector because the technology offers improved energy density and longer lifespans, thereby enhancing their market position. Lithium-ion batteries require minimal maintenance, which makes them more cost-effective over time, thereby driving their demand in the market. Furthermore, government policies promoting clean energy and reducing carbon emissions are accelerating the shift to lithium-ion batteries in transportation and energy storage, further boosting demand.
Asia-Pacific Dominates the Battery Technology Market
The Asia-Pacific dominates the battery technology market and is projected to maintain this lead during the forecast period. The area includes populous economies like China and India, where rapid urbanization, rising disposable incomes, and expanding technological access are fostering a large consumer base for battery technologies. Growing demand for electric vehicles (EVs) and electronics is driving parallel increases in the need for efficient batteries. Further countries such as China, India and Japan are aggressively adopting EVs and prioritizing investments in energy storage systems, further boosting demand for advanced battery solutions in the region. Government initiatives and industrial investments in sustainable infrastructure also reinforce this trend. These factors position Asia-Pacific as a critical hub for innovation and market growth in battery technology.
The Asia-Pacific is a global leader in consumer electronics production and consumption, driving significant market growth. Supportive government policies are further accelerating battery manufacturing, fostering a robust ecosystem for battery technology development. To meet rising regional demand, manufacturers are prioritizing investments in localized production. Governments and private institutions are also bolstering domestic manufacturing capabilities through large-scale investments in battery production plants. These strategic efforts align with the region's push for energy independence and sustainability. Further these factors collectively solidify Asia-Pacific's position as a powerhouse in both electronics and advanced battery innovation.
In September 2022, India's first lithium-ion cell production unit was opened in Tirupati, Andhra Pradesh. The facility was set up by Munoth Industries Limited with an investment of around USD 19.06 million. The unit has an initial capacity of 270 MWH, which will manufacture 20,000 cells of 10Ah per day. The cells will be utilized in power banks that cater to around 60% of the nation's present demand. The programme seeks to curtail India's dependence on imports from nations like China and South Korea.
Key Players Landscape and Outlook
Continuous innovation characterizes the landscape of battery technology globally, as the companies compete in terms of energy efficiency, product life, and unique features. To remain competitive in the battery technology market, companies are adopting various strategic initiatives. Collaborations with electric vehicle (EV) manufacturers and energy storage providers are increasingly critical, enabling market expansion and joint innovation in advanced battery technologies. Strategic initiatives such as product launches, partnerships, business expansions, and joint ventures coupled with ongoing technological advancements-are expected to intensify competition in this rapidly evolving sector.
For instance, in December 2024, Contemporary Amperex Technology Co., Limited (CATL) and Stellantis decided to invest up to USD 4.3 billion to form a joint venture that will help to build a large-scale European lithium iron phosphate (LFP) battery plant in Zaragoza, Spain. Production is expected to begin by the end of 2026, potentially reaching a capacity of 50 GWh. The carbon-neutral plant will supply Stellantis with LFP batteries for more affordable electric vehicles in the B and C segments. This collaboration strengthens Stellantis' dual-chemistry strategy (NMC and LFP) and supports its carbon net-zero goal by 2038. The partnership aims to bring CATL's advanced battery technology to Europe, enhancing e-mobility and energy transition efforts.
All segments will be provided for all regions and countries covered
Companies mentioned above DO NOT hold any order as per market share and can be changed as per information available during research work.