Sodium-Ion Battery Market

▲ Cell Chemistry
CATL Naxtra sodium-ion cell at USD 40 per kWh positions sodium-ion as the sub-200 kilometre urban EV chemistry eliminating lithium from the entry-level vehicle segment for the first time at commercial scale
Sodium-Ion Battery Market, By Cathode Type, By Application, By End-Use Industry, By Region
Report ID: FDX-CC-004   |   Published: Q2 2026   |   Pages: 162
Market Size 2025
USD 1.24 Bn
Base Year
Market Size 2035
USD 8.87 Bn
Forecast Year
CAGR 2026-2035
21.7%
Compound Annual
Leading Cathode
Prussian Blue Analogue
2025
Leading Region
Asia Pacific
2025 Revenue Share
Section 01
Market Synopsis
Global Market Revenue Trajectory (USD) // 2025-2035
2025
USD 1.24 Bn
2027
USD 1.84 Bn
2029
USD 2.72 Bn
2031
USD 4.02 Bn
2033
USD 5.94 Bn
2035
USD 8.87 Bn
21.7%CAGR 2026-2035
Global Sodium-Ion Battery Market Revenue, 2025-2035 (USD Billion)
Base Year 2025 | CAGR 21.7% | Source: Faradex Partners, Company Filings
ⓘ Revenue estimates based on disclosed capacity data and primary panel calibration.

The global sodium-ion battery market size was USD 1.24 Billion in 2025 and is expected to register a revenue CAGR of 21.7% during the forecast period. Market revenue growth is supported by the commercial launch of sodium-ion cells by CATL, BYD, and HiNa Battery Technology for entry-level EV and two-wheeler applications, where the elimination of lithium, cobalt, nickel, and manganese from sodium-ion cathode chemistries creates a structural material cost advantage positioning sodium-ion below LFP at USD 40 to USD 55 per kilowatt-hour at cell level in Chinese production as of 2025. CATL's Naxtra sodium-ion cell, launched commercially in January 2026 for Chery and SAIC entry-level EV platforms targeting retail prices below CNY 80,000, is the first automotive-grade sodium-ion cell in volume production globally.

For instance, in March 2026, HiNa Battery Technology, China, confirmed cumulative sodium-ion cell shipments of 2.8 GWh across electric two-wheeler, low-speed EV, and energy storage applications since its commercial production launch in 2023, reporting that its layered oxide cathode sodium-ion cells had achieved 160 Wh/kg at cell level with 4,000 cycle lifetime at 80% capacity retention, the highest publicly confirmed cycle life for a commercial layered oxide sodium-ion cell at that energy density. These are some of the key factors driving revenue growth of the market.

However, sodium-ion cell energy density of 130 to 165 Wh/kg at cell level remains 20% to 35% below LFP at equivalent format, limiting sodium-ion adoption to range-insensitive applications including urban delivery vehicles, two-wheelers, and stationary energy storage where range per charge is not the primary selection criterion. The absence of a sodium-ion anode material with the cycle stability of graphite, with hard carbon anodes achieving 300 to 350 mAh/g specific capacity versus 372 mAh/g for graphite, constrains energy density improvement without a materials breakthrough that has not yet reached commercial readiness. These factors substantially limit sodium-ion battery market growth over the forecast period.

Section 02
Segment Insights
Prussian Blue Analogue and Other Revenue Share, 2025
Leading segment drives market value
Application Revenue Share, 2025
End-use distribution 2025
Prussian blue analogue cathode segment is expected to account for a significantly large revenue share in the global sodium-ion battery market during the forecast period

Based on cathode type, the global sodium-ion battery market is segmented into Prussian blue analogue, layered oxide, and NASICON-type cathode sodium-ion cells. The Prussian blue analogue segment commands the largest revenue share because PBA cathodes offer the lowest raw material cost of any sodium-ion cathode chemistry, using iron and manganese as primary transition metals without lithium, cobalt, or nickel, achieving energy densities of 120 to 145 Wh/kg at material costs below LFP per kilowatt-hour of capacity. CATL's Naxtra cell uses a modified PBA cathode with reduced water content addressing the principal structural degradation mode of conventional PBA synthesis.

The layered oxide cathode segment is expected to register a rapid revenue growth rate in the global sodium-ion battery market over the forecast period. Layered oxide sodium-ion cathodes using nickel, manganese, and copper transition metals achieve energy densities of 150 to 165 Wh/kg at cell level, approaching LFP performance, and are the cathode chemistry pursued by HiNa Battery Technology and Faradion for higher energy density applications.

Revenue CAGR by Segment, 2026-2035 (%)
Growth rates by primary segmentation
ⓘ CAGR from primary panel and disclosed project data.
Section 03
Regional Insights
Revenue Share by Region, 2025 vs. 2035 Forecast (%)
Regional shift driven by gigafactory construction and policy
Cell Chemistry Asia Pacific — Largest Revenue Share, 2025

Based on regional analysis, the Sodium-Ion Battery Market market in Asia Pacific accounted for the largest revenue share in 2025. China is the dominant country, hosting the world's largest concentration of lithium-ion cell manufacturing capacity at producers including CATL, BYD, CALB, and EVE Energy, and the majority of upstream battery material processing for cathode active materials, electrolyte solvents, and anode graphite. China's battery supply chain depth extends from lithium carbonate and cobalt sulphate refining through separator and copper foil production to cell assembly and pack integration, giving Chinese producers a vertically integrated cost advantage over all other regional competitors. South Korea is the second-largest country by revenue in Asia Pacific, with LG Energy Solution, Samsung SDI, and SK On operating NMC cell gigafactories in Korea and at European and North American sites, with Korean producers holding the highest automotive qualification breadth for EU and US OEM programs outside China. Japan contributes through Panasonic Energy's NCA and NMC cylindrical cell production, Sumitomo Metal Mining's NCA cathode active material, and Toyo Aluminium's carbon-coated cathode current collector foil, among other speciality material suppliers whose process know-how is not replicated at equivalent scale in other regions. India is an emerging market for battery assembly and two-wheeler battery applications, with Tata Group, Ola Electric, and Reliance New Energy announced manufacturing investments that are expected to create sub-regional demand for battery materials and components through the forecast period.

Europe

The European market is expected to register rapid revenue growth over the forecast period. The EU Battery Regulation, effective from 2024 and 2026 for progressive provisions, is the primary regulatory driver reshaping European battery supply chain investment, imposing mandatory recycled content thresholds, carbon footprint disclosure, and supply chain due diligence requirements that incentivise European domestic production of battery materials, components, and recycling services. Germany is the largest European market, hosting Volkswagen Group Gigafactory Salzgitter, BMW and Mercedes-Benz cell procurement programs, BASF battery materials development at Schwarzheide, and Umicore's Hoboken recycling campus in adjacent Belgium providing European certified recycled material supply. Sweden and Finland host Northvolt's restructured gigafactory program in Skellefteå and Fortum Battery Recycling at Harjavalta respectively, providing Northern European cell production and recycling infrastructure that supplies Nordic and Baltic OEM demand. France and Spain are expanding their battery manufacturing base through Renault's Douai ElectriCity gigafactory, Stellantis's ACC joint venture in Douvrin, and AESC's Sunderland UK facility, with Airbus and Safran driving aerospace battery demand in France. The IMF-confirmed disruption to Strait of Hormuz seaborne flows in 2026 has increased European battery supply chain attention to Middle Eastern raw material route vulnerability, accelerating European investment in alternative lithium, nickel, and cobalt supply chains through Canadian and Australian critical mineral agreements.

North America

The North American market is expected to register rapid revenue growth, driven by IRA Sections 30D, 45X, and 48C incentive provisions that collectively create USD 7,500 per vehicle consumer tax credits, USD 35 per kilowatt-hour cell manufacturing production credits, and investment tax credits for gigafactory capital expenditure that have attracted over USD 80 billion of announced battery manufacturing investment since August 2022. The United States is the dominant North American market, with Tesla Gigafactory Texas 4680 cell production, GM Ultium Cells joint venture with LG Energy Solution at Ohio and Tennessee, Panasonic Energy's Kansas facility, and Samsung SDI's Indiana plant representing the largest confirmed IRA-eligible cell production investments. Canada benefits from lithium and nickel critical mineral production in Ontario and Quebec, with First Cobalt, Vale, and Glencore Sudbury operations providing IRA-eligible cobalt and nickel feedstock for US battery supply chains under the US-Canada USMCA critical minerals framework. Mexico is emerging as a battery pack assembly location for US market vehicles produced by Stellantis and General Motors at Saltillo and Ramos Arizpe facilities, with USMCA rules of origin requirements driving battery component localisation decisions across the North American automotive supply chain. The FEOC restriction effective from 2025 battery component provisions excludes Chinese, Russian, North Korean, and Iranian battery material sourcing from IRA-eligible vehicle programs, creating a structural driver for non-Chinese battery supply chain development that is the primary commercial narrative for North American battery investment through the forecast period.

Latin America

The Latin America market is expected to register moderate revenue growth from a low base, with Chile and Argentina representing the primary battery-relevant economies through their dominant positions in global lithium brine production. Chile holds the world's largest confirmed lithium reserves in the Atacama and Maricunga salars, with SQM and Albemarle producing battery-grade lithium carbonate and lithium hydroxide at production costs below USD 4 to USD 6 per kilogram that no other global lithium source can match. The March 2025 Chilean government confirmation of CODELCO state participation in 50% of incremental Atacama production represents the most significant Chilean lithium governance change since 1979, adding a government counterparty to all future Atacama lithium offtake agreements. Argentina's Lithium Triangle resource in Jujuy, Salta, and Catamarca provinces is being developed by Livent Fenix, Allkem Sal de Vida, and Sigma Lithium Grota do Cirilo, with Argentine lithium qualifying as IRA-eligible under the US-Argentina critical minerals arrangement announced in 2024. Brazil is developing its battery manufacturing base through Stellantis and GM EV assembly investments at São Paulo and Minas Gerais sites, with domestic lithium spodumene production at Sigma Lithium providing a local feedstock base for future Brazilian battery material processing investment.

Middle East and Africa

The Middle East and Africa market is expected to register limited revenue growth from a low base, with the DRC representing the region's most significant battery supply chain position through its 73% share of global cobalt mine production. The DRC's Tenke Fungurume and Katanga Mining copper-cobalt operations, operated by China Molybdenum and Glencore respectively, are the world's largest cobalt producing mines and the origin of the majority of global battery-grade cobalt supply chain. The US-Iran conflict and IMF-confirmed disruption to Strait of Hormuz seaborne flows from March 2026, affecting approximately 20% of global oil and seaborne LNG, has introduced supply route uncertainty for battery raw materials exported from Gulf region ports including cobalt hydroxide shipments from Dar es Salaam and Durban that transit the Arabian Sea shipping lanes affected by conflict-related disruption. South Africa holds 70% of global manganese ore reserves, supplying Chinese processing facilities that convert ore to battery-grade manganese sulphate for LMFP and NMC cathode precursor production, with South32 and Anglo American evaluating in-country manganese sulphate conversion to capture higher value from the manganese ore export chain. Morocco and Egypt are developing battery assembly and EV manufacturing capacity targeting European export markets under EU association agreement preferential tariff frameworks, with Renault's Tangier and Stellantis's Kenitra Morocco facilities providing the industrial base for potential battery component supply chain development.

Section 05
Strategic Developments
March 2026
In March 2026, HiNa Battery Technology, China, confirmed cumulative sodium-ion cell shipments of 2.8 GWh since commercial launch in 2023, with layered oxide cells achieving 160 Wh/kg and 4,000 cycle lifetime at 80% retention, the highest confirmed cycle life for a commercial layered oxide sodium-ion cell at that energy density.
January 2026
In January 2026, CATL confirmed volume production of its Naxtra sodium-ion cell for Chery and SAIC entry-level EV platforms, with cell-level energy density of 140 Wh/kg and target retail vehicle price below CNY 80,000, the first automotive-grade sodium-ion cell in volume production globally.
October 2025
In October 2025, BYD confirmed sodium-ion cell pilot production at its Shenzhen facility using a layered oxide cathode targeting 155 Wh/kg, with first application targeting two-wheeler battery packs for BYD DiDi shared mobility fleet in tier-3 and tier-4 Chinese cities.
July 2025
In July 2025, Faradion, United Kingdom, announced a 5 MWh sodium-ion stationary energy storage deployment at a UK grid operator facility, the largest disclosed sodium-ion stationary installation outside China, using layered oxide cells from a contracted Japanese manufacturer.
April 2025
In April 2025, HiNa Battery Technology confirmed a sodium-ion cell supply agreement with a Chinese electric two-wheeler manufacturer covering 800 MWh of annual supply for 48V and 72V two-wheeler battery packs, the first sodium-ion supply agreement at 100 MWh-plus annual volume for a two-wheeler application globally.
November 2024
In November 2024, the Chinese Ministry of Industry and Information Technology published sodium-ion battery development guidance confirming CNY 2 billion in government co-investment for manufacturing capacity expansion through 2027, targeting 30 GWh annual sodium-ion production capacity in China by 2027.
Section 06
Competitive Landscape
Competitive Positioning: Market Scale vs. Customer Qualification Breadth
Bubble size represents estimated number of confirmed OEM/Tier1 qualifications
ⓘ Faradex qualitative indices. Source: Faradex Partners Q2 2026.
CATL
CHINA // Naxtra Sodium-Ion Cell // Modified PBA cathode, hard carbon anode
CATL is the most commercially advanced sodium-ion cell producer globally by confirmed automotive qualification, with its Naxtra cell in volume production for Chinese entry-level EV platforms from January 2026. Its modified PBA cathode with reduced water content addresses the principal failure mode of conventional PBA cells, while its hard carbon anode benefits from the manufacturing scale and process control that smaller sodium-ion developers cannot replicate. CATL's simultaneous development of LFP, LMFP, NMC, and sodium-ion cell chemistries positions it to capture market share across all cost-performance segments.
CompanyCountrySpecialisationPosition / ScaleFaradex Assessment
CATLChinaNaxtra PBA cathodeVolume production Jan 2026HIGH
HiNa Battery TechnologyChinaLayered oxide cathode2.8 GWh cumulative shippedHIGH
BYDChinaLayered oxide pilotTwo-wheeler pilot programMEDIUM-HIGH
FaradionUKLayered oxide stationary5 MWh UK grid deploymentMEDIUM
Natron EnergyUSAPBA stationaryUS stationary market focusMEDIUM
Tiamat EnergyFranceNASICON cylindrical18650-format sodium-ionLOWER
AltrisSwedenPBA cathode materialsEU cathode material supplyLOWER
EVE EnergyChinaSodium-ion developmentCylindrical format programLOWER
CATL HiNa Battery BYD Faradion Natron Energy Tiamat Energy Altris EVE Energy Kureha Kuraray HINA Battery Shinko Chemical
Section 08
Key Questions Answered
  • 01What is the global sodium-ion battery market size in 2025 and what CAGR is expected during 2026-2035?
  • 02What energy density has CATL's Naxtra sodium-ion cell achieved and at what cell-level price does it position sodium-ion relative to LFP?
  • 03Which automotive platforms have confirmed sodium-ion cell integration and what is the target retail vehicle price that makes sodium-ion economics viable?
  • 04How does the Prussian blue analogue cathode raw material cost advantage over LFP arise from the elimination of lithium, cobalt, nickel, and manganese?
  • 05What hard carbon anode supply gap exists between current global production capacity and the 30 GWh Chinese sodium-ion production target by 2027?
  • 06How does HiNa Battery Technology's layered oxide cathode achieve 160 Wh/kg and 4,000 cycle lifetime and how does this compare with CATL's PBA cell performance?
  • 07What stationary energy storage deployment has Faradion achieved in the UK and what does this indicate about sodium-ion's role in non-automotive applications?
  • 08At what sodium-ion anode specific capacity does the chemistry become competitive with LFP in standard-range passenger EV applications?
  • 09How do sodium-ion recycling economics differ from lithium-ion given the absence of lithium, cobalt, and nickel from PBA sodium-ion cell chemistry?
  • 10What CNY government investment support has the Chinese MIIT committed for sodium-ion manufacturing capacity expansion through 2027?
Section 10
Scope of Research

This report covers the global sodium-ion battery market across all major segments and geographic regions. Primary research combines panel conversations with industry experts and is cross-referenced against company annual reports and government agency data. All market size figures use 2025 as the base year with a 2026-2035 forecast period.

FDX-CC-004  // Q2 2026
Sodium-Ion Battery Market
162 pages  |  PDF + Excel
Buy Now Request Preview Summary Customise This Report Submit Pre-Purchase Query
No payment required until scope confirmed
Report Scope
Base Year: 2025
Forecast: 2026-2035
Pages: 162
4 segmentation bases
5 regions
10+ companies profiled
7 charts
PDF + Excel delivery
No syndicated sources
Table of Contents
01. Market Synopsis p.12
02. Industry Trends p.26
03. Restraints p.38
04. Primary Segment p.50
05. Secondary Segment p.62
06. Application Segment p.74
07. Regional Insights p.84
08. Price Trends p.112
09. Strategic Developments p.118
10. Competitive Landscape p.128
11. Profiles p.138
13. Key Questions p.151
14. Scope p.159