The battery technology landscape is undergoing a profound transformation as the industry shifts from conventional lithium-ion solutions toward advanced chemistries and beyond-lithium alternatives. While lithium-ion (Li-ion) technology currently dominates the global battery market with over 99% market share, emerging technologies are poised to capture approximately >25% of the market by 2035. This report provides an in-depth analysis of both advanced Li-ion batteries and beyond-lithium technologies that will revolutionize energy storage across multiple applications from 2025 to 2035.
Report contents include:
Battery demand in GWh by technology type (2025-2035)
Market valuation in billions of dollars
Application-specific adoption curves
Regional market development
Material consumption trends for advanced anodes and cathodes
Analysis of Next-Generation Lithium-Ion Technologies:
Silicon and silicon-carbon composite anodes
High and ultra-high nickel cathode materials
Single crystal cathodes
Lithium-manganese-rich (LMR-NMC) formulations
Advanced electrolyte systems
Lithium manganese iron phosphate (LMFP)
Beyond-Lithium Solutions:
Semi-solid-state and solid-state batteries
Sodium-ion and sodium-sulfur systems
Lithium-sulfur batteries
Lithium-metal and anode-less designs
Zinc-based technologies
Redox flow batteries
Aluminum-ion batteries
Specialized Form Factors:
Flexible batteries
Transparent energy storage
Degradable batteries
Printed and 3D-printed solutions
Application Market analysis:
Electric Vehicle Ecosystem:
Passenger electric vehicles (BEV/PHEV)
Electric buses, trucks, and commercial vehicles
Micro-mobility solutions
Off-road applications including construction and marine
Battery sizing requirements by vehicle type
Grid Energy Storage:
Large-scale installations
Behind-the-meter commercial systems
Residential storage solutions
Consumer Electronics:
Next-generation devices
Wearable technology
Portable power applications
Supply Chain and Manufacturing Analysis
Advanced cathode production methods
Silicon anode manufacturing processes
Solid-state battery production techniques
Recycling technologies for lithium-ion and beyond-lithium batteries
Raw material requirements and supply chain considerations
The integration of AI in battery development and production
Technology readiness assessments and commercialization timelines
Application-specific battery selection frameworks
Regional competitive advantages in battery innovation
Material intensity and sustainability considerations
Emerging use cases for specialized battery technologies
Competitive Landscape.
The report profiles over 375 companies across the battery value chain, from established manufacturers to innovative start-ups, with detailed analysis of their technology positioning, production capabilities, and strategic partnerships. Companies profiled include 2D Fab AB, 24M Technologies, Inc., 3DOM Inc., 6K Energy, Abound Energy, AC Biode, ACCURE Battery Intelligence, Addionics, Advano, Agora Energy Technologies, Aionics Inc., AirMembrane Corporation, Allegro Energy Pty. Ltd., Alsym Energy, Altairnano / Yinlong, Altris AB, Aluma Power, Altech Batteries Ltd., Ambri, Inc., AMO Greentech, Ampcera, Inc., Amprius, Inc., AMTE Power, Anaphite Limited, Anthro Energy, APB Corporation, Appear Inc., Ateios Systems, Atlas Materials, Australian Advanced Materials, Australian Vanadium Limited, Australia VRFB ESS Company (AVESS), Avanti Battery Company, AZUL Energy Co., Ltd, BAK Power Battery, BASF, BattGenie Inc., Basquevolt, Bedimensional S.p.A, Beijing WeLion New Energy Technology, Bemp Research Company, BenAn Energy Technology, BGT Materials Ltd., Big Pawer, Biwatt Power, Black Diamond Structures, LLC, Blackstone Resources, Blue Current, Inc., Blue Solutions, Blue Spark Technologies, Inc., Bodi, Inc., Brill Power, BrightVolt, Inc., Broadbit Batteries Oy, BTR New Energy Materials, Inc., BYD Company Limited, Cabot Corporation, California Lithium Battery, CAMX Power, CAPCHEM, CarbonScape Ltd., CBAK Energy Technology, Inc., CCL Design, CEC Science & Technology Co., Ltd, Contemporary Amperex Technology Co Ltd (CATL), CellCube, CellsX, Central Glass Co., Ltd., CENS Materials Ltd., CERQ, Ceylon Graphene Technologies (Pvt) Ltd, Cham Battery Technology, Chasm Advanced Materials, Inc., Chemix, Chengdu Baisige Technology Co., Ltd., China Sodium-ion Times, Citrine Informatics, Clarios, Clim8, CMBlu Energy AG, Connexx Systems Corp, Conovate, Coreshell, Customcells, Cymbet, Daejoo Electronic Materials, Dalian Rongke Power, DFD, Dotz Nano, Dreamweaver International, Eatron Technologies, Ecellix, Echion Technologies, EcoPro BM, ElecJet, Elestor, Elegus Technologies, E-Magy, Energy Storage Industries, Enerpoly AB, Enfucell Oy, Enevate, EnPower Greentech, Enovix, Ensurge Micropower ASA, E-Zinc, Eos Energy, Enzinc, Eonix Energy, ESS Tech, EthonAI, EVE Energy Co., Ltd, Exencell New Energy, Factorial Energy, Faradion Limited, Farasis Energy, FDK Corporation, Feon Energy, Inc., FinDreams Battery Co., Ltd., FlexEnergy LLC, Flow Aluminum, Inc., Flux XII, Forge Nano, Inc., Forsee Power, Fraunhofer Institute for Electronic Nano Systems (ENAS), Front Edge Technology, Fuelium, Fuji Pigment Co., Ltd., Fujitsu Laboratories Ltd., Corporation Guangzhou Automobile New Energy (GAC), Ganfeng Lithium, GDI, Gelion Technologies Pty Ltd., Geyser Batteries Oy, General Motors (GM), Global Graphene Group, Gnanomat S.L., Gotion High Tech, GQenergy srl, Grafentek, Grafoid, Graphene Batteries AS, Graphene Manufacturing Group Pty Ltd (GMG), Great Power Energy, Green Energy Storage S.r.l. (GES), GRST, Shenzhen Grepow Battery Co., Ltd. (Grepow), Group14 Technologies, Inc., Guoke Tanmei New Materials, GUS Technology, H2 Inc., Hansol Chemical, HE3DA Ltd., Hexalayer LLC, High Performance Battery Holding AG, HiNa Battery Technologies Limited, Hirose Paper Mfg Co., Ltd., HiT Nano, Hitachi Zosen Corporation, Horizontal Na Energy, HPQ Nano Silicon Powders Inc., Hua Na New Materials, Hybrid Kinetic Group, HydraRedox Iberia S.L., IBU-tec Advanced Materials AG, Idemitsu Kosan Co., Ltd., Ilika plc, Indi Energy, INEM Technologies, Inna New Energy, Innolith, InnovationLab, Inobat, Intecells, Intellegens, Invinity Energy Systems, Ionblox, Inc., Ionic Materials, Ionic Mineral Technologies, Ion Storage Systems LLC, Iontra, I-Ten SA, Janaenergy Technology, Jenax, Inc., Jiana Energy, JIOS Aerogel, JNC Corporation, Johnson Energy Storage, Inc., Johnson Matthey, Jolt Energy Storage, JR Energy Solution, Kemiwatt, Kite Rise Technologies GmbH, KoreaGraph, Korid Energy / AVESS, Koura, Kusumoto Chemicals, Largo, Inc., Le System Co., Ltd, Lepu Sodium Power, LeydenJar Technologies, LG Energy Solutions, LiBest, Inc., Libode New Material, LiCAP Technologies, Inc., Li-Fun Technology, Li-Metal Corp, LiNa Energy, LIND Limited, Lionrock Batteries, LionVolt BV, Li-S Energy, Lithium Werks BV, LIVA Power Management Systems GmbH, Lucky Sodium Storage, Lyten, Inc., Merck & Co., Inc., Microvast, Mitsubishi Chemical Corporation, Monolith AI, Moonwat, mPhase Technologies, Murata Manufacturing Co., Ltd., NanoGraf Corporation, Nacoe Energy, nanoFlocell, Nanom, Nanomakers, Nano One Materials, NanoPow AS, Nanoramic Laboratories, Nanoresearch, Inc., Nanotech Energy Inc., Natrium Energy, Natron Energy, Nawa Techonologies, NDB, NEC Corporation, NEI Corporation, Neo Battery Materials Ltd., New Dominion Enterprises, Nexeon, NGK Insulators Ltd., NIO, Inc., Nippon Chemicon, Nippon Electric Glass, Noco-noco, Noon Energy, Nordische Technologies, Novonix, Nuriplan Co., Ltd., Nuvola Technology, Nuvvon, Nyobolt, OneD Battery Sciences, Our Next Energy (ONE), Paraclete Energy, Paragonage, PEAK Energy, Piersica, Pinflow Energy Storage, PJP Eye Ltd., Polarium, PolyJoule, PolyPlus Battery Company, Posco Chemical, PowerCo SE, prelonic technologies, Prieto Battery, Primearth EV Energy Co., Ltd., Prime Batteries Technology, Primus Power, Printed Energy Pty Ltd., ProfMOF AS and more.....
- EXECUTIVE SUMMARY
- The Li-ion Battery Market in 2025
- Table Trends in the Li-ion market in 2025.
- Global Market Forecasts to 2035
- Addressable markets
- Table Total Addressable Market for Li-ion Batteries.
- Li-ion battery pack demand for XEV (GWh)
- Table Li-ion battery pack demand for XEV (GWh) 2019-2035.
- Li-ion battery market value for XEV ($B)
- Table Li-ion battery market value for XEV (in $B) 2019-2035.
- Semi-solid-state battery market forecast (GWh)
- Table Semi-solid-state battery market forecast (GWh) 2019-2035.
- Table Semi-solid-state battery market forecast, GWh, by electrolyte types 2019-2035.
- Semi-solid-state battery market value ($B)
- Table Semi-solid-state battery market value ($B) 2019-2035.
- Solid-state battery market forecast (GWh)
- Table Solid-state battery market forecast (GWh) 2019-2035.
- Table Solid-state battery market forecast, GWh, by electrolyte types 2019-2035.
- Sodium-ion battery market forecast (GWh)
- Table Sodium-ion battery market forecast (GWh) 2019-2035.
- Sodium-ion battery market value ($B)
- Table Sodium-ion battery market value ($B) 2019-2035.
- Li-ion battery demand versus beyond Li-ion batteries demand
- Table Li-ion battery demand versus beyond Li-ion batteries demand 2019-2035.
- BEV car cathode forecast (GWh)
- Table BEV car cathode forecast (GWh) 2019-2035.
- BEV anode forecast (GWh)
- Table BEV anode forecast (GWh) 2019-2035.
- BEV anode forecast ($B)
- Table BEV anode forecast ($B) 2019-2035.
- EV cathode forecast (GWh)
- Table EV cathode forecast (GWh) 2019-2035.
- EV Anode forecast (GWh)
- Table EV Anode forecast (GWh) 2019-2035.
- Advanced anode forecast (GWh)
- Table Advanced anode forecast (GWh) 2019-2035.
- Advanced anode forecast (S$B)
- Table Advanced anode forecast (S$B) 2019-2035.
- Addressable markets
- The global market for advanced Li-ion batteries
- Table Annual sales of battery electric vehicles and plug-in hybrid electric vehicles.
- Electric vehicles
- Table Battery chemistries used in electric buses.
- Table Micro EV types
- Table Battery Sizes for Different Vehicle Types.
- Table Competing technologies for batteries in electric boats.
- Table Electric car Li-ion demand forecast (GWh), 2018-2035.
- Table EV Li-ion battery market (US$B), 2018-2035.
- Table Electric bus, truck and van battery forecast (GWh), 2018-2035.
- Table Micro EV Li-ion demand forecast (GWh).
- Grid storage
- Table Competing technologies for batteries in grid storage.
- Table Lithium-ion battery grid storage demand forecast (GWh), 2018-2035.
- Consumer electronics
- Table Competing technologies for batteries in consumer electronics
- Stationary batteries
- Table Competing technologies for sodium-ion batteries in grid storage.
- Market Forecasts
- Table Total Addressable Markets (GWh) for Advanced Li-ion and Beyond Li-ion Batteries.
- Table BEV Car Cathode Forecast (GWh).
- Table BEV Anode Forecast (GWh) 2019-2035.
- Table BEV Anode Forecast ($B) 2019-2035.
- Table EV Cathode Forecast (GWh) 2019-2035
- Table EV Anode Forecast (GWh) 2019-2035.
- Table Advanced Anode Forecast (GWh) 2019-2035.
- Table Advanced Anode Forecast ($B) 2019-2035
- Market drivers
- Table Market drivers for use of advanced materials and technologies in batteries.
- Battery market megatrends
- Table Battery market megatrends.
- Advanced materials for batteries
- Table Advanced materials for batteries.
- Motivation for battery development beyond lithium
- Battery chemistries
- The Li-ion Battery Market in 2025
- LI-ION BATTERIES
- Table Commercial Li-ion battery cell composition.
- Table Lithium-ion (Li-ion) battery supply chain.
- Types of Lithium Batteries
- Table Types of lithium battery.
- Anode materials
- Table Comparison of Li-ion battery anode materials.
- Graphite
- Lithium Titanate
- Lithium Metal
- Silicon anodes
- SWOT analysis
- Trends in the Li-ion battery market
- Table Trends in the Li-ion battery market.
- Li-ion technology roadmap
- Silicon anodes
- Benefits
- Silicon anode performance
- Table Si-anode performance summary.
- Development in li-ion batteries
- Table Manufacturing methods for nano-silicon anodes.
- Table Market Players' Production Capacites.
- Table Strategic Partnerships and Agreements.
- Table Markets and applications for silicon anodes.
- Consumption
- Table Anode material consumption by type (tonnes).
- Table Anode material consumption by end use market (tonnes).
- Alloy anode materials
- Silicon-carbon composites
- Silicon oxides and coatings
- Carbon nanotubes in Li-ion
- Graphene coatings for Li-ion
- Prices
- Table Anode materials prices, current and forecasted (USD/kg).
- Companies
- Table Silicon-anode companies.
- Li-ion electrolytes
- Cathodes
- Materials
- Table Li-ion battery cathode materials.
- Table Key technology trends shaping lithium-ion battery cathode development.
- Table Benefits of High and Ultra-High Nickel NMC.
- Table Routes to High Nickel Cathode Stabilisation
- Table High-nickel Products Table.
- Table Li-Mn-rich / lithium-manganese-rich / LMR-NMC costs.
- Table Commercial lithium-manganese-rich cathode development.
- Table Lithium-manganese-rich cathode developers
- Table Properties of Lithium Cobalt Oxide) as a cathode material for lithium-ion batteries.
- Table Properties of lithium iron phosphate (LiFePO4 or LFP) as a cathode material for lithium-ion batteries.
- Table Properties of Lithium Manganese Oxide cathode material.
- Table Properties of Lithium Nickel Manganese Cobalt Oxide (NMC).
- Table Properties of Lithium Nickel Cobalt Aluminum Oxide
- Table LMFP Cell Performance.
- Table LMFP Energy Density Analysis
- Table LMFP Cost Analysis
- Table LMFP Cathode Developers.
- Table LNMO Performance.
- Table LNMO Energy Density Comparison
- Alternative Cathode Production
- Table Alternative Cathode Production Routes.
- Table Alternative cathode synthesis routes.
- Table Alternative Cathode Production Companies.
- Table Recycled cathode materials facilities and capactites.
- Comparison of key lithium-ion cathode materials
- Table Comparison table of key lithium-ion cathode materials
- Emerging cathode material synthesis methods
- Cathode coatings
- Materials
- Binders and conductive additives
- Materials
- Table Li-ion battery Binder and conductive additive materials.
- Materials
- Separators
- Materials
- Table Li-ion battery Separator materials.
- Materials
- Platinum group metals
- Li-ion battery market players
- Table Li-ion battery market players.
- Li-ion recycling
- Table Typical lithium-ion battery recycling process flow.
- Table Main feedstock streams that can be recycled for lithium-ion batteries.
- Comparison of recycling techniques
- Table Comparison of LIB recycling methods.
- Hydrometallurgy
- Pyrometallurgy
- Direct recycling
- Other methods
- Recycling of Specific Components
- Recycling of Beyond Li-ion Batteries
- Table Comparison of conventional and emerging processes for recycling beyond lithium-ion batteries.
- Global revenues
- Table Global revenues for Li-ion batteries, 2018-2035, by market (Billions USD).
- LITHIUM-METAL BATTERIES
- Technology description
- Solid-state batteries and lithium metal anodes
- Increasing energy density
- Lithium-metal anodes
- Overview
- Challenges
- Energy density
- Anode-less Cells
- Overview
- Benefits
- Table Anode-less lithium-metal cell benefits.
- Key companies
- Table Anode-less lithium-metal cell developers.
- Lithium-metal and solid-state batteries
- Hybrid batteries
- Table Hybrid Battery Technologies
- Applications
- Table Applications for Li-metal batteries.
- SWOT analysis
- Product developers
- Table Li-metal battery developers
- LITHIUM-SULFUR BATTERIES
- Technology description
- Table Li-S performance characteristics.
- Operating principle of lithium-sulfur (Li-S) batteries
- Advantages
- Table Comparison of the theoretical energy densities of lithium-sulfur batteries versus other common battery types.
- Challenges
- Table Challenges with lithium-sulfur.
- Commercialization
- Table Li-S advantages and use cases
- Advantages
- Costs
- Material composition
- Lithium intensity
- Value chain
- Markets
- SWOT analysis
- Global revenues
- Table Global revenues for Lithium-sulfur, 2018-2035, by market (Billions USD).
- Product developers
- Table Lithium-sulphur battery product developers.
- Technology description
- LITHIUM TITANATE OXIDE (LTO) AND NIOBATE BATTERIES
- Technology description
- Lithium titanate oxide (LTO)
- Niobium titanium oxide (NTO)
- Global revenues
- Table Global revenues for Lithium titanate and niobate batteries, 2018-2035, by market (Billions USD).
- Product developers
- Table Product developers in Lithium titanate and niobate batteries.
- Technology description
- SODIUM-ION (NA-ION) BATTERIES
- Technology description
- Cathode materials
- Table Comparison of cathode materials.
- Table Layered transition metal oxide cathode materials for sodium-ion batteries.
- Table General cycling performance characteristics of common layered transition metal oxide cathode materials.
- Table Polyanionic materials for sodium-ion battery cathodes.
- Table Comparative analysis of different polyanionic materials.
- Table Common types of Prussian Blue Analogue materials used as cathodes or anodes in sodium-ion batteries.
- Anode materials
- Table Comparison of Na-ion battery anode materials.
- Table Hard Carbon producers for sodium-ion battery anodes.
- Table Comparison of carbon materials in sodium-ion battery anodes.
- Table Comparison between Natural and Synthetic Graphite.
- Table Properties of graphene, properties of competing materials, applications thereof.
- Table Comparison of carbon based anodes.
- Table Alloying materials used in sodium-ion batteries.
- Electrolytes
- Table Na-ion electrolyte formulations.
- Cathode materials
- Comparative analysis with other battery types
- Table Pros and cons compared to other battery types.
- Cost comparison with Li-ion
- Table Cost comparison with Li-ion batteries.
- Materials in sodium-ion battery cells
- Table Key materials in sodium-ion battery cells.
- SWOT analysis
- Global revenues
- Table Global revenues for sodium-ion batteries, 2018-2035, by market (Billions USD).
- Product developers
- Battery Manufacturers
- Large Corporations
- Automotive Companies
- Chemicals and Materials Firms
- Technology description
- SODIUM-SULFUR BATTERIES
- Technology description
- Applications
- SWOT analysis
- ALUMINIUM-ION BATTERIES
- Technology description
- SWOT analysis
- Commercialization
- Global revenues
- Product developers
- Table Product developers in aluminium-ion batteries.
- SOLID STATE BATTERIES
- Technology description
- Solid-state electrolytes
- Table Types of solid-state electrolytes.
- Table Market segmentation and status for solid-state batteries.
- Solid-state electrolytes
- Features and advantages
- Table Solid Electrolyte Material Comparison.
- Table Typical process chains for manufacturing key components and assembly of solid-state batteries.
- Technical specifications
- Types
- Table Comparison between liquid and solid-state batteries.
- Microbatteries
- Introduction
- Materials
- Applications
- 3D designs
- Bulk type solid-state batteries
- SWOT analysis
- Limitations
- Table Limitations of solid-state thin film batteries.
- Global revenues
- Table Solid-state battery market forecast (GWh) 2019-2035.
- Table Solid-state battery market forecast, GWh, by electrolyte types 2019-2035.
- Product developers
- Table Solid-state thin-film battery market players.
- Technology description
- FLEXIBLE BATTERIES
- Technology description
- Table Flexible battery applications and technical requirements.
- Technical specifications
- Approaches to flexibility
- Table Comparison of Flexible and Traditional Lithium-Ion Batteries
- Table Material Choices for Flexible Battery Components.
- Approaches to flexibility
- Flexible electronics
- Flexible materials
- Flexible and wearable Metal-sulfur batteries
- Flexible and wearable Metal-air batteries
- Flexible Lithium-ion Batteries
- Table Flexible Li-ion battery prototypes.
- Table Thin film vs bulk solid-state batteries.
- Types of Flexible/stretchable LIBs
- Table Summary of fiber-shaped lithium-ion batteries.
- Flexible Li/S batteries
- Components
- Carbon nanomaterials
- Flexible lithium-manganese dioxide (Li-MnO2) batteries
- Flexible zinc-based batteries
- Components
- Challenges
- Flexible zinc-manganese dioxide (Zn-Mn) batteries
- Flexible silver-zinc (Ag-Zn) batteries
- Flexible Zn-Air batteries
- Flexible zinc-vanadium batteries
- Fiber-shaped batteries
- Carbon nanotubes
- Types
- Table Types of fiber-shaped batteries.
- Applications
- Challenges
- Energy harvesting combined with wearable energy storage devices
- SWOT analysis
- Global revenues
- Table Global revenues for flexible batteries, 2018-2035, by market (Billions USD).
- Product developers
- Table Product developers in flexible batteries.
- Technology description
- TRANSPARENT BATTERIES
- Technology description
- Components
- Table Components of transparent batteries.
- SWOT analysis
- Market outlook
- DEGRADABLE BATTERIES
- Technology description
- Components
- Table Components of degradable batteries.
- SWOT analysis
- Market outlook
- Product developers
- Table Product developers in degradable batteries.
- PRINTED BATTERIES
- Technical specifications
- Components
- Table Main components and properties of different printed battery types.
- Design
- Key features
- Printable current collectors
- Printable electrodes
- Materials
- Applications
- Table Applications of printed batteries and their physical and electrochemical requirements.
- Printing techniques
- Table 2D and 3D printing techniques.
- Table Printing techniques applied to printed batteries.
- Lithium-ion (LIB) printed batteries
- Table Main components and corresponding electrochemical values of lithium-ion printed batteries.
- Zinc-based printed batteries
- Table Printing technique, main components and corresponding electrochemical values of printed batteries based on Zn-MnO2 and other battery types.
- 3D Printed batteries
- 3D Printing techniques for battery manufacturing
- Table Main 3D Printing techniques for battery manufacturing.
- Materials for 3D printed batteries
- Table Electrode Materials for 3D Printed Batteries.
- 3D Printing techniques for battery manufacturing
- SWOT analysis
- Global revenues
- Table Global revenues for printed batteries, 2018-2035, by market (Billions USD).
- Product developers
- Table Product developers in printed batteries.
- REDOX FLOW BATTERIES
- Technology description
- Table Advantages and disadvantages of redox flow batteries.
- Types
- Table Comparison of different battery types.
- Table Summary of main flow battery types.
- Vanadium redox flow batteries (VRFB)
- Table Vanadium redox flow batteries (VRFB)-key features, advantages, limitations, performance, components and applications.
- Table Market players in Vanadium redox flow batteries (VRFB).
- Zinc-bromine flow batteries (ZnBr)
- Table Zinc-bromine (ZnBr) flow batteries-key features, advantages, limitations, performance, components and applications.
- Table Market players in Zinc-Bromine Flow Batteries (ZnBr).
- Polysulfide bromine flow batteries (PSB)
- Table Polysulfide bromine flow batteries (PSB)-key features, advantages, limitations, performance, components and applications.
- Iron-chromium flow batteries (ICB)
- Table Iron-chromium (ICB) flow batteries-key features, advantages, limitations, performance, components and applications.
- Table Market players in Iron-chromium (ICB) flow batteries.
- All-Iron flow batteries
- Table All-Iron flow batteries-key features, advantages, limitations, performance, components and applications.
- Table Market players in All-iron Flow Batteries.
- Zinc-iron (Zn-Fe) flow batteries
- Table Zinc-iron (Zn-Fe) flow batteries-key features, advantages, limitations, performance, components and applications.
- Table Market players in Zinc-iron (Zn-Fe) Flow Batteries.
- Hydrogen-bromine (H-Br) flow batteries
- Table Hydrogen-bromine (H-Br) flow batteries-key features, advantages, limitations, performance, components and applications.
- Table Market players in Hydrogen-bromine (H-Br) flow batteries.
- Hydrogen-Manganese (H-Mn) flow batteries
- Table Hydrogen-Manganese (H-Mn) flow batteries-key features, advantages, limitations, performance, components and applications.
- Table Market players in Hydrogen-Manganese (H-Mn) Flow Batteries.
- Organic flow batteries
- Table Materials in Organic Redox Flow Batteries (ORFB).
- Table Key Active species for ORFBs
- Table Organic flow batteries-key features, advantages, limitations, performance, components and applications.
- Table Market players in Organic Redox Flow Batteries (ORFB).
- Emerging Flow-Batteries
- Hybrid Flow Batteries
- Table Zinc-Cerium Hybrid flow batteries-key features, advantages, limitations, performance, components and applications.
- Table Zinc-Polyiodide Hybrid Flow batteries-key features, advantages, limitations, performance, components and applications.
- Table Zinc-Nickel Hybrid Flow batteries-key features, advantages, limitations, performance, components and applications.
- Table Zinc-Bromine Hybrid Flow batteries-key features, advantages, limitations, performance, components and applications.
- Table Vanadium-Polyhalide Hybrid Flow batteries-key features, advantages, limitations, performance, components and applications.
- Markets for redox flow batteries
- Table Redox flow battery value chain.
- Global revenues
- Table Global revenues for redox flow batteries, 2018-2035, by type (millions USD).
- Technology description
- ZN-BASED BATTERIES
- Technology description
- Zinc-Air batteries
- Zinc-ion batteries
- Zinc-bromide
- Market outlook
- Product developers
- Table ZN-based battery product developers.
- Technology description
- AI BATTERY TECHNOLOGY
- Overview
- Applications
- Table Application of Artificial Intelligence (AI) in battery technology.
- Machine Learning
- Table Machine learning approaches.
- Table Types of Neural Networks.
- Material Informatics
- Table Companies in materials informatics for batteries.
- Cell Testing
- Table Data Forms for Cell Modelling.
- Table Algorithmic Approaches for Different Testing Modes.
- Table Companies in AI for cell testing for batteries.
- Cell Assembly and Manufacturing
- Table Algorithmic Approaches in Manufacturing and Cell Assembly:
- Table AI-based battery manufacturing players.
- Battery Analytics
- Table Companies in AI for battery diagnostics and management.
- Second Life Assessment
- Table Algorithmic Approaches and Data Inputs/Outputs.
- Table Companies in AI for second-life battery assessment
- PRINTED SUPERCAPACITORS
- Overview
- Printing methods
- Table Methods for printing supercapacitors.
- Electrode materials
- Table Electrode Materials for printed supercapacitors.
- Electrolytes
- Table Electrolytes for printed supercapacitors.
- Table Main properties and components of printed supercapacitors.
- CELL AND BATTERY DESIGN
- Cell Design
- Overview
- Commercial examples
- Electrolyte Additives
- Table Electrolyte Additives.
- Enhancing battery performance
- Cell Performance
- Energy density
- Table Cell performance specification.
- Table Commercial cell chemistries
- Energy density
- Battery Packs
- Cell-to-pack
- Table Drivers and Challenges for Cell-to-pack.
- Cell-to-chassis/body
- Table Cell-to-pack and cell-to-body designs.
- Bipolar batteries
- Hybrid battery packs
- Battery Management System (BMS)
- Cell-to-pack
- Cell Design
- COMPANY PROFILES
- 2D Fab AB
- 24M Technologies, Inc.
- 3DOM Inc.
- 6K Energy
- Abound Energy
- AC Biode
- ACCURE Battery Intelligence
- Addionics
- Advano
- Agora Energy Technologies
- Aionics Inc.
- AirMembrane Corporation
- Allegro Energy Pty. Ltd.
- Alsym Energy
- Altairnano / Yinlong
- Altris AB
- Aluma Power
- Altech Batteries Ltd.
- Ambri, Inc.
- AMO Greentech
- Ampcera, Inc.
- Amprius, Inc.
- AMTE Power
- Anaphite Limited
- Anthro Energy
- APB Corporation
- Appear Inc.
- Ateios Systems
- Atlas Materials
- Australian Advanced Materials
- Australian Vanadium Limited
- Australia VRFB ESS Company (AVESS)
- Avanti Battery Company
- AZUL Energy Co., Ltd
- BAK Power Battery
- BASF
- BattGenie Inc.
- Basquevolt
- Bedimensional S.p.A
- Beijing WeLion New Energy Technology
- Bemp Research Company
- BenAn Energy Technology
- BGT Materials Ltd.
- Big Pawer
- Biwatt Power
- Black Diamond Structures, LLC
- Blackstone Resources
- Blue Current, Inc.
- Blue Solutions
- Blue Spark Technologies, Inc.
- Bodi, Inc.
- Brill Power
- BrightVolt, Inc.
- Broadbit Batteries Oy
- BTR New Energy Materials, Inc.
- BYD Company Limited
- Cabot Corporation
- California Lithium Battery
- CAMX Power
- CAPCHEM
- CarbonScape Ltd.
- CBAK Energy Technology, Inc.
- CCL Design
- CEC Science & Technology Co., Ltd
- Contemporary Amperex Technology Co Ltd (CATL)
- CellCube
- CellsX
- Central Glass Co., Ltd.
- CENS Materials Ltd.
- CERQ
- Ceylon Graphene Technologies (Pvt) Ltd
- Cham Battery Technology
- Chasm Advanced Materials, Inc.
- Chemix
- Chengdu Baisige Technology Co., Ltd.
- China Sodium-ion Times
- Citrine Informatics
- Clarios
- Clim8
- CMBlu Energy AG
- Connexx Systems Corp
- Conovate
- Coreshell
- Customcells
- Cymbet
- Daejoo Electronic Materials
- Dalian Rongke Power
- DFD
- Dotz Nano
- Dreamweaver International
- Eatron Technologies
- EBS Square
- Ecellix
- Echion Technologies
- EcoPro BM
- ElecJet
- Elestor
- Elegus Technologies
- E-Magy
- Energy Storage Industries
- Enerpoly AB
- Enfucell Oy
- Enevate
- EnPower Greentech
- Enovix
- Ensurge Micropower ASA
- E-Zinc
- Eos Energy
- Enzinc
- Eonix Energy
- ESS Tech
- EthonAI
- EVE Energy Co., Ltd
- Exencell New Energy
- Factorial Energy
- Faradion Limited
- Farasis Energy
- FDK Corporation
- Feon Energy, Inc.
- FinDreams Battery Co., Ltd.
- FlexEnergy LLC
- Flow Aluminum, Inc.
- Flux XII
- Forge Nano, Inc.
- Forsee Power
- Fraunhofer Institute for Electronic Nano Systems (ENAS)
- Front Edge Technology
- Fuelium
- Fuji Pigment Co., Ltd.
- Fujitsu Laboratories Ltd.
- Corporation Guangzhou Automobile New Energy (GAC)
- Ganfeng Lithium
- Gelion Technologies Pty Ltd.
- Geyser Batteries Oy
- General Motors (GM)
- Global Graphene Group
- Gnanomat S.L.
- Gotion High Tech
- GQenergy srl
- Grafentek
- Grafoid
- Graphene Batteries AS
- Graphene Manufacturing Group Pty Ltd (GMG)
- Great Power Energy
- Green Energy Storage S.r.l. (GES)
- GRST
- Shenzhen Grepow Battery Co., Ltd. (Grepow)
- Group14 Technologies, Inc.
- Guoke Tanmei New Materials
- GUS Technology
- H2 Inc.
- Hansol Chemical
- HE3DA Ltd.
- Hexalayer LLC
- High Performance Battery Holding AG
- HiNa Battery Technologies Limited
- Hirose Paper Mfg Co., Ltd.
- HiT Nano
- Hitachi Zosen Corporation
- Horizontal Na Energy
- HPQ Nano Silicon Powders Inc.
- Hua Na New Materials
- Hybrid Kinetic Group
- HydraRedox Iberia S.L.
- IBU-tec Advanced Materials AG
- Idemitsu Kosan Co., Ltd.
- Ilika plc
- Indi Energy
- INEM Technologies
- Inna New Energy
- Innolith
- InnovationLab
- Inobat
- Intecells
- Intellegens
- Invinity Energy Systems
- Ionblox, Inc.
- Ionic Materials
- Ionic Mineral Technologies
- Ion Storage Systems LLC
- Iontra
- I-Ten SA
- Janaenergy Technology
- Jenax, Inc.
- Jiana Energy
- JIOS Aerogel
- JNC Corporation
- Johnson Energy Storage, Inc.
- Johnson Matthey
- Jolt Energy Storage
- JR Energy Solution
- Kemiwatt
- Kite Rise Technologies GmbH
- KoreaGraph
- Korid Energy / AVESS
- Koura
- Kusumoto Chemicals
- Largo, Inc.
- Le System Co., Ltd
- Lepu Sodium Power
- LeydenJar Technologies
- LG Energy Solutions
- LiBest, Inc.
- Libode New Material
- LiCAP Technologies, Inc.
- Li-Fun Technology
- Li-Metal Corp
- LiNa Energy
- LIND Limited
- Lionrock Batteries
- LionVolt BV
- Li-S Energy
- Lithium Werks BV
- LIVA Power Management Systems GmbH
- Lucky Sodium Storage
- Lyten, Inc.
- Merck & Co., Inc.
- Microvast
- Mitsubishi Chemical Corporation
- Monolith AI
- Moonwat
- mPhase Technologies
- Murata Manufacturing Co., Ltd.
- NanoGraf Corporation
- Nacoe Energy
- nanoFlocell
- Nanom
- Nanomakers
- Nano One Materials
- NanoPow AS
- Nanoramic Laboratories
- Nanoresearch, Inc.
- Nanotech Energy Inc.
- Natrium Energy
- Natron Energy
- Nawa Techonologies
- NDB
- NEC Corporation
- NEI Corporation
- Neo Battery Materials Ltd.
- New Dominion Enterprises
- Nexeon
- NGK Insulators Ltd.
- NIO, Inc.
- Nippon Chemicon
- Nippon Electric Glass
- Noco-noco
- Noon Energy
- Nordische Technologies
- Novonix
- Nuriplan Co., Ltd.
- Nuvola Technology
- Nuvvon
- Nyobolt
- OneD Battery Sciences
- Our Next Energy (ONE)
- Paraclete Energy
- Paragonage
- PEAK Energy
- Piersica
- Pinflow Energy Storage
- PJP Eye Ltd.
- Polarium
- PolyJoule
- PolyPlus Battery Company
- Posco Chemical
- PowerCo SE
- prelonic technologies
- Prieto Battery
- Primearth EV Energy Co., Ltd.
- Prime Batteries Technology
- Primus Power
- Printed Energy Pty Ltd.
- ProfMOF AS
- Prolux Solutions
- Prologium Technology Co., Ltd.
- Qi Na New Energy
- Qing Tao Energy Development
- QuantumScape Battery Corporation
- Qingtao Energy Development
- Quino Energy
- Real Graphene
- RedFlow
- Redox One
- RFC Power Limited
- ReJoule
- Relectrify
- Ronbay Technology
- Safion GmbH
- Sakuú Corporation
- Salient Energy
- Salgenx
- SaltX Technology AB
- Samsung SDI
- Saratoga Energy Corporation
- SCHMID Group (Everflow)
- Semiconductor Energy Laboratory Co., Ltd.
- Sepion Technologies
- SES
- S Graphene Co., Ltd.
- Shanghai Electric Energy Storage Technology
- Shanghai Putailai
- Shenzhen Dynanonic
- Shenzhen Kstar Science and Technology (Kstar)
- Shen-Li High Tech
- Shift Materials
- Showa Denko K. K.
- Sicona Battery Technologies Pty Ltd
- Sila Nanotechnologies
- Silver Power Systems
- Sinergy Flow
- Sion Power
- Sionic Energy
- SK ON
- Sodion Energy Pte. Ltd.
- Soelect, Inc.
- Solid Power Inc.
- South 8 Technologies
- Sparkz, Inc.
- Stora Enso Oyj
- StoreDot
- StorEn Technologies
- Stabl Energy GmbH
- STMicroelectronics
- Stratus Materials
- Stryten Energy
- Sumitomo Electric
- Sumitomo Metal Mining
- Svolt Energy
- Sylvatex
- TaiSan
- Talent New Energy
- TasmanIon
- TDK
- Tentok Paper Co. Ltd.
- TeraWatt Technology
- TexPower EV Technologies Inc.
- Theion
- Thorion Energy
- thyssenkrupp
- Tiamat Energy
- Toray Industries
- Toshiba
- Tokushu Tokai Paper Co., Ltd.
- Transimage Sodium-ion Battery
- Trion Battery
- TWAICE
- UNIGRID
- Ulvac
- Urbix Resources
- VanadiumCorp Resource Inc.
- Vanevo GmbH
- VartaAG
- Vaulta
- Verkor
- VFlow Tech
- Visblue A/S
- ViZn Energy Systems Inc
- Volexion
- Volt14 Solutions
- Voltaiq
- Volterion GmbH
- volytica diagnostics
- VoltStorage
- VRB Energy
- WAE Technologies
- WATTALPS
- WattJoule Corporation
- Weifang Energy Technology Co., Ltd.
- Welion New Energy
- WeView Energy
- Wildcat Discovery Technologies
- Xerion Advanced Battery Corp
- Yoshino Technology Inc
- Zero Emissions Developments (ZED)
- Zeta Energy Corporation
- Zoolnasm (Zhongna Energy)
- RESEARCH METHODOLOGY
- Report scope
- Research methodology
- REFERENCES
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