Lithium-ion Batteries Recycling Growth Analysis - Market Size, Share, Forecast Trends and Outlook Report (2025-2034)

The lithium-ion batteries recycling market attained a value of USD 2.75 Billion in 2024. The market is likely to grow at a CAGR of 19.10% during the forecast period of 2025-2034 to attain a value of USD 15.79 Billion by 2034 owing to the rising concern for ecology and environment and various other favourable factors.

Lithium-ion Batteries Recycling Market Growth

Recycling of spent-energy LIBs involves extracting raw materials from such batteries and putting them back in use to produce new LIBs. It reduces pressure on natural sources of such raw materials, makes the industry much more sustainable, eases the problem of finding new landfills, mitigates the danger of contamination of groundwater and eliminates the risk of accidents due to explosion during transportation or disposal of spent-energy LIBs. Maintaining their supply in the plant through recycling is a cheaper and more sustainable option and boosts the lithium-ion batteries recycling demand. In LIBs, half of the production cost is due to valuable raw materials, like lithium, cobalt, and manganese, among others.

In most cases, valuable raw materials are procured through imports from producing countries. Such substances may be susceptible to supply chain disruptions due to various natural and man-made causes, such as conflicts in the mining zones and unfriendly diplomatic relations between importing and exporting countries, among other factors. Recycling offers a reliable solution to such vagaries and would help the Lithium-ion Batteries Recycling Market to have stable growth.

For the viability of the recycling business, it is essential to ensure that cost of recycling remains much less than the cost of new procurement. Recycling technology is improving with time, with the possibility of the introduction of automation and robotics. Consistency in technology improvement and upgradation is likely to sustain and further enhance cost advantage in the long run.

The growth of the lithium-ion batteries recycling market can be attributed to the rapid development in the manufacturing of lithium-ion batteries (LIBs). More production ultimately leads to more recycling. The world is becoming more and more aware of consistent degradation in the environment, the rising temperature of the earth and increasing levels of greenhouse gases. Internal combustion engines running on conventional fossil fuel energy are responsible for 18% of the total emission of greenhouse gases. No wonder countries are shifting from traditional energy sources to green and clean ones.

LIBs, besides providing green and clean energy, have a much lower running cost than internal combustion engines. Also, with the advancement of technology and mass-scale production, their price is also decreasing.

Lithium-ion Batteries Recycling Market Trends

Recycling is the process that enables the recovery of valuable raw materials, like lithium, cobalt, manganese, and nickel, among others, from the spent-energy LIBs for their reuse in the fresh production of such batteries. For recycling, spent-energy batteries are sent to recycling plants, shredded and crushed into a black mass. A major trend in lithium-ion batteries recycling market is that valuable raw materials are separated through a judicious mix of pyrometallurgical, hydrometallurgical, and mechanical processes. Separated metals are then sent to the LIB plants for use in the manufacturing process. With the evolution in LIB manufacturing technology, recycling technology is also evolving with time and may soon see the use of automation and robotics.

Significant Challenges for the Lithium-ion Batteries Recycling Market in the Coming Years

• There would be an ever-increasing demand for extra funds and new landfill sites to dispose of spent-energy LIBs.
• Disposal of such batteries may also lead to severe environmental and public health issues because of chemicals in the batteries getting into underground water sources.
• Even after the end of their useful lives, LIBs in lithium-ion batteries recycling industry still retain a substantial amount of energy in them. If not handled carefully, there is always a risk of explosion during transportation to landfill sites or disposal.
• The availability of raw materials used in LIBs, including nickel, cobalt, and lithium, among others, may be scarce in the long run. The sustainability of the entire Lithium-ion Batteries Recycling Market may be in peril.
• The technology of recycling is directly linked to the manufacturing technology of LIBs. Recycling technology must follow and keep pace with manufacturing technology. If the compositions of chemicals used in LIBs change, the technology for separating and retrieving such chemicals will also have to be revisited. Likewise, if the packaging technology of such battery changes, the technology used for shredding spent-energy LIBs will also undergo various changes.
• As per the lithium-ion batteries recycling market analysis, all such changes may entail introducing new equipment, expertise, and capital expenditure from time to time. Companies must keep up with technological advancements to survive in the long run. Survival of smaller players with limited availability of resources for modernisation and upgradation will become a considerable challenge in the long run.

Recent Developments

As per the lithium-ion batteries recycling market dynamics and trends, the scientists at Ames National Laboratory of the US Department of Energy developed an innovative recycling method called the battery recycling and water splitting (BRAWS) technique for lithium-ion batteries.

Industry Outlook

As per the lithium-ion batteries recycling industry analysis, most governments worldwide are promoting recycling as a part of their commitment towards green and clean energy and reducing the load of pollutants upon the environment. Such promotions are in terms of financial support and through legislative means. The Indian government has also notified Battery Waste Management Rules in 2023.

In the United States, assistance is not only through financial grants at the levels of federal, state and local governments but also through technical assistance, low-interest loans, tax breaks, equipment rebate programmes, regulatory streamlining assistance and free energy audits that can contribute to the growth of the lithium-ion batteries recycling industry. Given alarmingly rapid environmental degradation, government support will likely intensify further in the coming years and is expected to aid the market's growth.

The use of cobalt as raw material gives rise to ethical issues. 70% of the cobalt used in LIBs is obtained from the Democratic Republic of Congo (DRC), where there have been severe allegations regarding the deployment of child labour and human rights violations in cobalt mining. Recycling reduces the need to import cobalt, saves LIB manufacturers from the moral dilemma and can increase the lithium-ion batteries recycling industry revenue.

Innovations in Battery Recycling Technology and Environmental Regulations are Driving the Growth of the Global Lithium-ion Batteries Recycling Market

• Rising environmental awareness and stringent regulations promoting battery recycling initiatives.
• Advanced recycling technologies enhancing the recovery rates of valuable materials.
• Recycling lithium-ion batteries allows for the recovery of valuable materials such as lithium, cobalt, and nickel, reducing dependence on raw material mining.
• Expansion of renewable energy storage solutions increasing demand for recycled batteries as well as lithium-ion batteries recycling demand growth.

High Operational Costs and Infrastructural Challenges for Battery Collection May Impact the Global Lithium-Ion Battery Recycling Market 

• High operational costs associated with the recycling process and technology deployment.
• Limited infrastructure for battery collection and transportation in some regions.
• Dependency on skilled labour and specialized facilities to maintain recycling quality.
• Supply chain disruptions affecting the availability of recyclable batteries can impact lithium-ion batteries recycling demand forecast.
• Competition from low-cost battery manufacturing reduces the economic viability of recycling.
• Global economic uncertainties influencing investment in recycling infrastructure.
• Regulatory changes and compliance requirements vary across different regions.

Expanding Electric Vehicle Market and Government Incentives in Recycling Initiatives is Creating Opportunities in the Global Lithium-Ion Batteries Recycling Market

• Rapid expansion of the electric vehicle market providing significant growth opportunities.
• Development of secondary applications for recycled battery materials in various industries.
• Increasing government incentives and subsidies for recycling initiatives can fuel lithium-ion batteries recycling market revenue.
• Collaborations with research institutions to develop innovative recycling methods.
• Growing awareness and adoption of circular economy principles in the industry.

Lithium-ion Batteries Recycling Industry Segmentations

“Lithium-Ion Batteries Market Report and Forecast 2025-2034” offers a detailed analysis of the market based on the following segments:

Market Breakup by Battery Component

• Active Material
• Non-active Material

Market Breakup by Source

• Electric Vehicles
• Electronics
• Power Tools
• Others

Market Breakup by Battery Chemistry

• Lithium-nickel Manganese Cobalt (Li-NMC)
• Lithium-iron Phosphate (LFP)
• Lithium-manganese Oxide (LMO)
• Lithium-titanate Oxide (LTO)
• Lithium-nickel Cobalt Aluminum Oxide (NCA)

Market Breakup by Recycling Process

• Hydrometallurgical Process
• Pyrometallurgy Process
• Physical/Mechanical Process
• Others

Market Breakup by End Use

• Automotive
• Non-automotive

Market Breakup by Region

• North America
• Europe
• Asia Pacific
• Latin America
• Middle East and Africa

Lithium-ion Batteries Recycling Market Share

Based on Source

The electronics segment is expected to hold the largest lithium-ion batteries recycling market share during the forecast period. This growth can be attributed to the rising utilisation of lithium-ion batteries due to advantages, such as high energy density, low-self discharge, minimum maintenance, and cost-effectiveness, among other factors that are likely to drive the market growth.

The market growth is also positively affected by the rapid development of innovative portable devices and rising penetration technologies in emerging markets. In addition, market players constantly innovating and introducing improved products to meet consumer demands will propel market expansion.

Based on Battery Chemistry

Among the different battery chemistries, lithium-manganese oxide batteries are expected to hold a significant market share and fuel lithium-ion batteries recycling market expansion owing to their rising utilisation in various devices, such as fire and smoke alarms, security alarms, gas and water meters, and security alarms. In addition, due to a significant amount of recoverable cobalt material, the market is likely to advance further and multiply its market value.

Competitive Landscape

Umicore

Umicore is a multinational chemical manufacturing and material technology company that primarily focuses on developing clean technologies, such as emission control catalysts, materials for rechargeable batteries and recycling activities. Their speciality lies in developing products in various categories, including automotive, chemicals, electronics, energy, manufacturing, optics and displays, precious metals, recycling and refining.

RecycLiCo Battery Materials Inc.

RecycLiCo Battery Materials Inc. is a battery recycling and upcycling company in the lithium-ion batteries recycling industry founded in 1987. The company is headquartered in Surrey, Canada. It has introduced a closed-loop, hydrometallurgical process that involves minimal steps and enables 100% extraction of lithium, cobalt, nickel, and manganese from lithium-ion battery waste. The company primarily operates in recycling activities with a selective focus on EV Batteries, urban mining, and electric vehicles, among others.

Li-Cycle Holdings Corp.

Li-Cycle Holdings Corp. is a Canadian company that provides service solutions that are safe, sustainable, and economically viable for the recycling of lithium-ion batteries. The company was founded in 2016 and has been working with chemicals and materials to provide various products, including battery materials, mixed copper/aluminium, lithium carbonate, and manganese carbonate.

Other market players include Retrieve Technologies, JCV Holdings Group, Neometals Ltd, and Fortum Corporation, among others.

Lithium-ion Batteries Recycling Market Regional Analysis

The Asia Pacific accounts for a major market share due to the burgeoning availability of a large number of battery manufacturers in the region. The increased sales of electronics further contribute to the demand of lithium-ion battery recycling market.

Key Indicators of Prices in the Global Lithium-Ion Batteries Recycling Market

• Raw Material Costs: Fluctuations in the prices of essential raw materials like lithium, cobalt, and nickel directly impact the cost structure of lithium-ion battery recycling.
• Technological Impact: Advancements in recycling technologies can significantly enhance efficiency, potentially reducing overall recycling costs.
• Transportation and Logistics: Variability in transportation and logistics expenses for collecting and recycling lithium-ion batteries plays a crucial role in determining prices and enhances lithium-ion batteries recycling market opportunities.
• Government Influence: Policies, tariffs, and subsidies imposed by governments can greatly influence the economics of lithium-ion battery recycling.
• Market Demand: The demand for high-purity recycled materials drives price adjustments, with increased demand potentially leading to higher prices.

Key Indicators of Demand in the Global Lithium-Ion Batteries Recycling Market

• Environmental Awareness: Growing awareness of environmental sustainability and circular economy practices is fuelling demand for lithium-ion battery recycling.
• Market Expansion: The expansion of battery manufacturing and recycling industries in emerging markets is boosting demand in lithium-ion batteries recycling industry.
• Technological Advancements: Innovations that enhance the efficiency and cost-effectiveness of recycling processes are key drivers of demand.
• Seasonal and Economic Factors: Seasonal variations and economic cycles influence the rates at which lithium-ion batteries are disposed of and recycled.

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