Sodium-Ion Battery Market, Industry Size Forecast, [Latest]

Overview

The global sodium-ion battery market is projected to grow from USD 0.67 billion in 2025 to USD 2.01 billion by 2030, at a CAGR of 24.7% during the forecast period. Sodium-ion batteries are relatively more cost-effective when compared to other batteries like lithium-ion batteries and this therefore drives the growth of the sodium-ion battery market. Sodium-ion batteries find applications in multiple industries, such as automotive, consumer electronics, industrial, and energy storage.

Attractive Opportunities in the Sodium-ion Battery Market

Asia Pacific

The high growth of the sodium-ion battery market in Europe is driven by expanding industrial sectors and increasing demand in the automotive industry.

The cost-effectiveness of sodium-ion batteries in comparison to lithium-ion batteries is expected to drive the sodium-ion battery market.

The abundance of availability of sodium is expected to provide lucrative opportunities for market players.

The sodium-ion battery market is expected to be worth USD 2.01 billion by 2030, at a CAGR of 24.7% during the forecast period.

The availability of high-performance materials for sodium-ion batteries and market competition in the battery market pose challenges to the growth of this market.

Global Sodium-ion Battery Market Dynamics

DRIVER: Cost-effective when compared to lithium-ion batteries

Sodium-ion batteries are a relatively cost-effective solution when compared to lithium-ion batteries. They offer significant advantages across various aspects of energy storage. Sodium-ion batteries are relatively cheaper due to the abundance and lower cost of sodium resources. This consequently reduces the overall price of sodium-ion batteries and contributes to their affordability.

This cost-effectiveness of sodium-ion batteries thus leads to reduced production costs, which further escalates their attractiveness for energy storage applications. This aspect, therefore, acts as an advantage for large-scale projects such as grid storage, where cost considerations play a critical role in decision-making. Additionally, the lower price of sodium-ion batteries has a ripple effect on the electronics industry, reducing the overall cost of electronic gadgets compared to those powered by lithium-ion batteries. This cost reduction makes sodium-ion batteries not only economically appealing but also fosters their wider adoption across various consumer electronics and industrial applications, driving the shift toward more sustainable energy solutions.

RESTRAINT: Lower energy density as compared to the lithium-ion battery

Energy density refers to the amount of energy stored per unit of weight or volume within a battery. The lower energy density of sodium-ion batteries in comparison to that of lithium-ion batteries poses a significant challenge that impacts their suitability for various applications, such as their usage in electric vehicles (EVs). As sodium-ion batteries store less energy in comparison to lithium-ion batteries, they may fall short in meeting the demanding requirements of applications where high energy density is essential, such as EVs. When we take electric vehicles into consideration, it is imperative to, or it is desired to achieve longer driving ranges that can only be achieved by maximizing the amount of energy stored within the battery pack while keeping its weight and volume as minimal as possible. Sodium-ion batteries' lower energy density may constrain the range achievable by EVs, thereby limiting their appeal in the automotive sector. This disparity underscores the need for continued research & development efforts aimed at enhancing the energy density of sodium-ion batteries to bridge the gap with the lithium-ion technology.

OPPORTUNITY: Abundant availability of sodium, unlike lithium, forms a strong supply chain

The abundance of sodium resources is a clear advantage for the sodium-ion battery technology. Unlike lithium, whose concentration is limited to specific regions and is subject to geopolitical tensions, sodium is widely distributed across the globe, with ample reserves available in various countries. This widespread availability of sodium resources mitigates supply chain risks and dependencies associated with lithium-ion batteries, offering greater resilience and stability to battery manufacturing. Sodium-ion batteries can withstand fluctuations in resource availability by reducing reliance on specific regions or suppliers for raw materials, thus ensuring a more robust and secure supply chain. Moreover, the sodium resource abundance contributes to cost stability and predictability, making sodium-ion batteries an attractive option for large-scale production and deployment. Overall, the abundant availability of sodium resources underscores the potential of the sodium-ion battery technology to offer a sustainable and reliable energy storage solution for various applications, from consumer electronics to grid-scale energy storage systems.

CHALLENGES: Availability of high-performance materials for sodium-ion batteries

The availability of high-performance materials, particularly related to sodium-ion batteries, remains a critical challenge in advancing the technology to its full potential. While materials such as Prussian white and hard carbon are promising options that can be used as cathode and anode materials, respectively, further research & development efforts are necessary to optimize their electrochemical properties, stability, and scalability for commercial production. It is imperative to ensure the long-term stability and durability of materials under various operating conditions, including extended charge-discharge cycles and high current densities, for the commercial viability of sodium-ion battery systems. Furthermore, scalability is essential to enable large-scale production of high-performance materials at an affordable cost, facilitating their integration into mass-market applications such as grid-scale energy storage and electric vehicles.

Addressing the challenges associated with material availability requires interdisciplinary collaboration among researchers, engineers, and industry stakeholders to explore new synthesis methods, understand fundamental electrochemical processes, and develop innovative approaches to enhance the performance and scalability of materials for sodium-ion batteries. Through concerted efforts in research & development, high-performance materials tailored for sodium-ion batteries can be developed, paving the way for the widespread adoption of the sodium-ion battery technology.

Lack of Established Supply Chain

The lack of an established supply chain for sodium-ion batteries poses a significant challenge to their large-scale commercialization. Unlike lithium-ion batteries, which have a mature and efficient global supply network, the sodium-ion technology is still in its early stages, with limited suppliers for key raw materials. The absence of dedicated large-scale production facilities, material processing infrastructure, and component suppliers leads to higher costs and supply chain inefficiencies. This restricts economies of scale, making sodium-ion batteries less competitive against lithium-ion alternatives. Additionally, delays in raw material sourcing and manufacturing bottlenecks hinder widespread adoption. As a result, companies hesitate to invest in the sodium-ion technology, slowing down its technological advancement and market penetration.

Global Sodium-ion Battery Market Ecosystem Analysis

Prominent companies in this market include well-established and financially stable manufacturers of sodium-ion batteries. These companies have been operating in the market for several years and possess diversified product portfolios and strong global sales and marketing networks. Prominent companies in this market include Faradion (UK), Contemporary Amperex Technology Co., Ltd. (China), TIAMAT Energy (France), HiNa Battery Technology Co., Ltd. (China), and Jiangsu Zoolnasm Energy Technology Co., Ltd. (China).

Automotive end-use industry is projected to grow at the fastest rate during the forecast period

The automotive industry is expected to grow at the fastest rate among the end-use industries of the sodium-ion battery market. The market for sodium-ion batteries is expanding at the fastest pace in the automotive sector because of the marked trend toward electric transportation. The automobile industry's growing emphasis on sustainability and clean energy technology has fueled this shift. Due to their affordability, safety features, and advantages for the environment, sodium-ion batteries have become the go-to option in this industry. Government programs supporting sustainable energy and the necessity of grid modernization have contributed to the spike in demand for sodium-ion batteries in electric vehicles. Consequently, the automotive sector has become the fastest-growing sector in the sodium-ion battery business due to its acceptance of these batteries, which has fueled their rapid expansion and domination in the market.

Non-aqueous battery type projected to grow at the fastest rate during the forecast period

The non-aqueous sodium-ion battery segment is growing at the fastest rate in the industry, which can be attributed to their versatility and wide-ranging applications across various industries. This is because, in contrast to aqueous alternatives, non-aqueous electrolytes permit larger working voltages. Better voltages thus result in better energy densities, which are essential for long-range applications like grid storage and electric vehicles. Aqueous batteries have benefits, including cost-effectiveness and safety, but because of their lower energy density, they are better suited for stationary applications with lesser power needs.

Europe is projected to grow at the highest CAGR during the forecast period

The Europe region demonstrates the fastest-growing rate in the sodium-ion battery market. The increasing use of electric vehicles and renewable energy initiatives is propelling this region's growth, especially in nations like Germany, UK, and France. To reduce emissions and advance sustainable energy solutions, the need for sodium-ion batteries is growing in the transportation and power generation industries. Given the region's abundance of sodium and the growing focus on sustainability and environmental issues, sodium-ion batteries are seen as a promising technology with the potential to revolutionize the energy storage market.

HIGHEST CAGR MARKET (2024–2030)

FRANCE FASTEST-GROWING MARKET IN REGION

Recent Developments of Sodium-ion Battery Market

In January 2024, JAC Group made a groundbreaking move in the electric vehicle (EV) industry by introducing China's first mass-produced electric vehicle powered by sodium-ion batteries. This milestone delivery, part of the Yiwei brand, features cutting-edge sodium-ion cylindrical cells supplied by HiNa Battery Technology.

In February 2024, Sodion Energy introduced India's first sodium-ion batteries, marking a significant advancement in the energy storage technology. These sodium-ion batteries are poised to revolutionize various sectors, including electric vehicles and home appliances, offering a versatile and sustainable energy storage solution.

In March 2024, Contemporary Amperex Technology Co., Ltd. planned to establish a research & development center in Hong Kong at the Hong Kong Science Park, with an expected recruitment of approximately 500 staff members. The company's decision to set up a research base in Hong Kong is seen as strategic, leveraging the city's international hub status and talent pool while diversifying its market globally.

In April 2024, Natron Energy commenced the first-ever commercial-scale production of sodium-ion batteries in the US at its Holland, Michigan facility. The plant, now capable of producing 600 megawatts annually, enhances the domestic battery supply chain while offering higher power density, faster recharge cycles, and improved safety compared to lithium-ion alternatives. With over USD 40 million invested in facility upgrades, this expansion supports data centers, EV fast charging, industrial mobility, and telecom applications.

In June 2024, Altris, a Swedish developer and prototype manufacturer of sodium-ion batteries, and Stora Enso, a leading provider of renewable products in packaging, biomaterials, and wooden construction, announced a partnership. Together, the two companies will drive the adaptation of Stora Enso’s hard carbon solution Lignode as an anode material in Altris’ sodium-ion battery cells.

In October 2024, CATL launched the Freevoy Super Hybrid Battery, a revolutionary energy solution for hybrid vehicles. This battery integrates the sodium-ion and lithium-ion technologies, ensuring exceptional performance in extreme temperatures, with a pure electric range exceeding 400 km and ultra-fast 4C charging. Designed for EREVs and PHEVs, Freevoy enhances energy efficiency, accelerates charging speeds, and improves system control precision, marking a significant advancement in sustainable mobility.

Key Market Players

KEY PLAYERS IN THE SODIUM-ION BATTERY MARKET INCLUDE

Faradion (UK)
Contemporary Amperex Technology Co., Ltd. (China)
TIAMAT Energy (France)
HiNa Battery Technology Co., Ltd. (China)
Altris AB. (Sweden)

Jiangsu Zoolnasm Energy Technology Co Ltd (China)
Natron Energy, Inc. (US)
NGK Insulators, Ltd. (Japan)
Li-FUN Technology Corporation Limited (China)
Jiangsu Transimage Technology Co., Ltd. (China)

Zhejiang Natrium Energy Co., Ltd. (China)
Sodion Energy Pte Ltd. (Singapore)
Indi Energy (India)
Northvolt AB (Sweden)
Zonergy Corporation (China)

Want to explore hidden markets that can drive new revenue in Sodium-ion Battery Market?

Unlock Insights

Scope of the Report

Report Metric	Details
Market size available for years	2019-2030
Base Year Considered	2024
Forecast period	2025-2030
Forecast units	Value (USD Million/Billion) and Volume (Kilotons)
Segments covered	Sodium-ion Battery Type, Technology Type, End-use, and Region
Geographies covered	Asia Pacific, Europe, North America, the Middle East & Africa, and South America

Key Questions Addressed by the Report

What is the key driver for the sodium-ion battery market?

Cost-effectiveness of sodium-ion batteries in comparison to lithium-ion batteries is a force driving the sodium-ion battery market.

Which region is expected to register the highest CAGR in the sodium-ion battery market during the forecast period?

Europe is projected to register the highest CAGR during the forecast period.

What is the major source of the main component of the sodium-ion battery?

Sodium, which is widely distributed and easily accessible in nature, is the main component in sodium-ion batteries. Compared to lithium, sodium is more widely available geographically and can be obtained from a variety of substances, including sea salt (NaCl). Sodium is abundant in salt water and the earth's crust and can be easily accessed as the raw material for the manufacture of sodium-ion batteries.

Who are the major players in the sodium-ion battery market?

The key players operating in the market include Faradion (UK), Contemporary Amperex Technology Co., Ltd. (China), TIAMAT Energy (France), HiNa Battery Technology Co., Ltd. (China), and Jiangsu Zoolnasm Energy Technology Co. Ltd. (China).

At what CAGR is the sodium-ion battery market expected to grow between 2025 and 2030?

The market is expected to record a CAGR of 24.7% between 2025 and 2030.

Personalize This Research

Triangulate with your Own Data
Get Data as per your Format and Definition
Gain a Deeper Dive on a Specific Application, Geography, Customer or Competitor
Any level of Personalization

Request A Free Customisation

Let Us Help You

What are the Known and Unknown Adjacencies Impacting the Sodium-ion Battery Market
What will your New Revenue Sources be?
Who will be your Top Customer; what will make them switch?
Defend your Market Share or Win Competitors
Get a Scorecard for Target Partners

Customized Workshop Request

Exclusive indicates content/data unique to MarketsandMarkets and not available with any competitors.

TITLE

PAGE NO

INTRODUCTION

RESEARCH METHODOLOGY

EXECUTIVE SUMMARY

PREMIUM INSIGHTS

MARKET OVERVIEW

110

5.1 INTRODUCTION

MARKET DYNAMICS

DRIVERS

RESTRAINTS

OPPORTUNITIES

CHALLENGES
5.2 SUPPLY/VALUE CHAIN ANALYSIS
5.3 ECOSYSTEM/MARKET MAP
5.4 PORTER’S FIVE FORCES ANALYSIS
5.5 PRICING ANALYSIS

AVERAGE SELLING PRICE TREND OF KEY PLAYERS, BY APPLICATION

AVERAGE SELLING PRICE TREND BY REGION

INDICATIVE PRICING ANALYSIS (IN CASE IF WE DON’T GET EXACT PRICING FOR
5.6 TARIFF AND REGULATORY LANDSCAPE

TARIFF RELATED TO SODIUM-ION BATTERY

REGULATORY BODIES, GOVERNMENT AGENCIES AND OTHER ORGANIZATIONS
5.7 KEY CONFERENCES & EVENTS IN 2025-2026
5.8 KEY STAKEHOLDERS & BUYING CRITERIA

KEY STAKEHOLDERS IN THE BUYING PROCESS

BUYING CRITERIA
5.9 PATENT ANALYSIS
5.10 TECHNOLOGY ANALYSIS
5.11 CASE STUDY
5.12 TRADE ANALYSIS

EXPORT SCENARIO

IMPORT SCENARIO
5.13 TRENDS/DISRUPTIONS IMPACTING CUSTOMER'S BUSINESS
5.14 INVESTMENT AND FUNDING SCENARIO

SODIUM-ION BATTERY MARKET, BY BATTERY TYPE

132

6.1 INTRODUCTION
6.2 SODIUM-SULFUR BATTERIES
6.3 SODIUM-SALT BATTERIES (ZEBRA BATTERIES)
6.4 SODIUM-OXYGEN (SODIUM AIR) BATTERIES
6.5 OTHERS

SODIUM-ION BATTERY MARKET, BY TECHNOLOGY TYPE

155

7.1 INTRODUCTION
7.2 AQUEOUS
7.3 NON-AQUEOUS
7.4 OTHERS

SODIUM-ION BATTERY MARKET, BY END USE

181

8.1 INTRODUCTION
8.2 CONSUMER ELECTRONICS
8.3 AUTOMOTIVE
8.4 INDUSTRIAL
8.5 ENERGY STORAGE
8.6 OTHERS

SODIUM-ION BATTERY MARKET, BY REGION

208

9.1 INTRODUCTION
9.2 ASIA PACIFIC

RECESSION IMPACT

CHINA

INDIA

JAPAN

SOUTH KOREA

VIETNAM

THAILAND

REST OF ASIA PACIFIC
9.3 EUROPE

RECESSION IMPACT

GERMANY

FRANCE

RUSSIA

UK

ITALY

SPAIN

REST OF EUROPE
9.4 NORTH AMERICA

RECESSION IMPACT

US

CANADA

MEXICO
9.5 MIDDLE EAST & AFRICA

RECESSION IMPACT

GCC COUNTRIES

- SAUDI ARABIA

- UAE

- REST OF GCC COUNTRIES

IRAN

REST OF MIDDLE EAST & AFRICA
9.6 SOUTH AMERICA

RECESSION IMPACT

BRAZIL

ARGENTINA

COLUMBIA

REST OF SOUTH AMERICA

COMPETITIVE LANDSCAPE

255

10.1 INTRODUCTION
10.2 KEY PLAYERS STRATEGIES/RIGHT TO WIN
10.3 REVENUE ANALYSIS
10.4 MARKET SHARE ANALYSIS
10.5 BRAND COMPARISON
10.6 COMPANY EVALUATION MATRIX: KEY PLAYERS, 2024

STARS

EMERGING LEADERS

PERVASIVE PLAYERS

PARTICIPANTS

COMPANY FOOTPRINT: KEY PLAYERS, 2024

- COMPANY FOOTPRINT

- REGION FOOTPRINT

- BATTERY FOOTPRINT

- END USE FOOTPRINT

- TECHNOLOGY FOOTPRINT
10.7 COMPANY EVALUATION MATRIX: STARTUPS/SMES, 2024

PROGRESSIVE COMPANIES

RESPONSIVE COMPANIES

DYNAMIC COMPANIES

STARTING BLOCKS

COMPETITIVE BENCHMARKING: STARTUPS/SMES, 2024

- DETAILED LIST OF KEY STARTUPS/SMES

- COMPETITIVE BENCHMARKING OF KEY STARTUPS/SMES
10.8 COMPETITIVE SCENARIO AND TREND
10.9 COMPANY VALUATION AND FINANCIAL METRICS

COMPANY PROFILES

271

11.1 KEY COMPANIES
11.2 HINA BATTERY TECHNOLOGY CO., LTD.

BUSINESS OVERVIEW

PRODUCTS & SERVICES

RECENT DEVELOPMENTS

MNM VIEW
11.3 CONTEMPORARY AMPEREX TECHNOLOGY CO., LTD.
11.4 ALTRIS ABS
11.5 NATRON ENERGY, INC.
11.6 TIAMAT ENERGY
11.7 NGK INSULATORS LTD.
11.8 JIANGSU TRANSIMAGE SODIUM-LON BATTERY TECHNOLOGY CO., LTD.
11.9 NATRIUM ENERGY
11.10 ZONERGY
11.11 NORTHVOLT
11.12 FARASIS ENERGY EUROPE GMBH
11.13 OTHER PLAYERS

ADJACENT AND INTERCONNECTED MARKET

298

APPENDIX

306

13.1 INSIGHTS OF INDUSTRY EXPERTS
13.2 DISCUSSION GUIDE
13.3 RELATED REPORT
13.4 AUTHOR DETAILS

The study involved four major activities in estimating the current size of the sodium-ion battery market. Exhaustive secondary research was undertaken to collect information on the market, peer market, and parent market. The next step was to validate these findings, assumptions, and sizing with the industry experts across the sodium-ion battery value chain through primary research. Both, the top-down and bottom-up approaches were employed to estimate the complete market size. Thereafter, market breakdown and data triangulation procedures were used to estimate the market size of the segments and subsegments.

Secondary Research

Secondary sources for this research study include annual reports, press releases, and investor presentations of companies; white papers; certified publications; and articles by recognized authors; gold- and silver-standard websites; sodium-ion battery manufacturing companies, regulatory bodies, trade directories, and databases. Secondary research was mainly used to obtain key information about the industry’s supply chain, the total pool of key players, market classification, and segmentation according to industry trends to the bottom-most level and regional markets. It has also been used to obtain information about the key developments from a market-oriented perspective.

Primary Research

The sodium-ion battery market comprises several stakeholders, such as raw material suppliers, technology support providers, sodium-ion battery manufacturers, and regulatory organizations in the supply chain. Various primary sources from both, the supply and demand sides of the market were interviewed to obtain qualitative and quantitative information. Primary sources from the supply side included industry experts such as Chief Executive Officers (CEOs), vice presidents, marketing directors, technology and innovation directors, and related key executives from various key companies and organizations operating in the sodium-ion battery market. Primary sources from the demand side included directors, marketing heads, and purchase managers from various sourcing industries.

The following is the breakdown of the interviews with experts:

To know about the assumptions considered for the study, download the pdf brochure

Market Size Estimation

Both, the top-down and bottom-up approaches have been used to estimate and validate the total size of the sodium-ion battery market. These approaches have also been used extensively to estimate the size of various dependent subsegments of the market. The research methodology used to estimate the market size included the following:

The following segments provide details about the overall market size estimation process employed in this study:

The key players in the market were identified through secondary research.
The market shares in the respective regions were identified through primary and secondary research.
The value chain and market size of the sodium-ion battery market, in terms of value and volume, were determined through primary and secondary research.
All percentage shares, splits, and breakdowns were determined using secondary sources and verified through primary sources.
All possible parameters that affect the market covered in this research study were accounted for, viewed in extensive detail, verified through primary research, and analyzed to obtain the final quantitative and qualitative data.
The research included the study of annual and financial reports of the top market players and interviews with industry experts, such as CEOs, VPs, directors, sales managers, and marketing executives, for key insights, both, quantitative and qualitative.

Global Sodium-ion Battery Market Size: Bottom-up and Top-Down Approach

Data Triangulation

After arriving at the overall market size using the market size estimation processes as explained above, the market was split into several segments and subsegments. To complete the overall market engineering process and arrive at the exact statistics of each market segment and subsegment, the data triangulation and market breakdown procedures were employed, wherever applicable. The data was triangulated by studying various factors and trends from both, the demand and supply sides of the oil & gas sector.

Market Definition

A sodium-ion battery is a type of rechargeable battery that uses sodium ions as the charge carriers during the electrochemical reactions that occur within the battery cell. Sodium-ion batteries store and release electrical energy through the movement of ions between the negative and positive electrodes during the charging and discharging cycles. In a sodium-ion battery, the cathode typically contains a sodium-based compound, such as sodium cobalt oxide (NaCoO2) or sodium iron phosphate (NaFePO4), while the anode is often composed of materials capable of intercalating sodium ions, such as hard carbon (graphite-like carbon) or various metal alloys.

During charging, sodium ions are extracted from the cathode and migrate through the electrolyte to the anode electrode, where they are stored within the structure of the anode material. Conversely, during discharge, the stored sodium ions move back to the cathode electrode through the electrolyte, releasing electrical energy that can be used to power electronic devices or systems.

Stakeholders

Raw Material Manufacturers
Technology Support Providers
Manufacturers of Sodium-ion Batteries
Traders, Distributors, and Suppliers
Regulatory Bodies and Government Agencies
Research & Development (R&D) Institutions
End-use Industries
Consulting Firms, Trade Associations, and Industry Bodies
Investment Banks and Private Equity Firms

Report Objectives

To analyze and forecast the market size of the sodium-ion battery market in terms of value and volume
To provide detailed information regarding the major factors (drivers, restraints, challenges, and opportunities) influencing the market
To analyze and forecast the global sodium-ion battery market on the basis of battery type, technology type, end-use, and region
To analyze the opportunities in the market for stakeholders and provide details of a competitive landscape for market leaders
To forecast the size of various market segments based on three major regions: Asia Pacific, Europe, and North America, along with their respective key countries
To track and analyze competitive developments, such as acquisitions, partnerships, collaborations, agreements, and expansions in the market
To strategically profile the key players and comprehensively analyze their market shares and core competencies

Previous Versions of this Report

Sodium-Ion Battery Market by Battery Type (Sodium-Sulfur, and Sodium-Salt), Technology Type (Aqueous and Non-Aqueous), End-Use (Energy Storage, Automotive, Industrial, Consumer Electronics), and Region (APAC, Europe, and NA) - Global Forecast to 2028

Report Code CH 8993

Published in Apr, 2024, By MarketsandMarkets™

Sodium-Ion Battery Market

Sodium-ion Battery Market by Battery Type (Sodium-Sulfur and Sodium-Salt), Technology Type (Aqueous and Non-aqueous), End-use (Energy Storage, Automotive, and Industrial), and Region (Asia Pacific, Europe, and North America) - Global Forecast to 2030