The Global Market for Advanced Batteries 2024-2034
Advanced, rechargeable batteries with very efficiency are a key technology enabling improved energy generation and storage for a wide range of applications. Their use will accelerate progress towards sustainable and smart solutions to current energy problems. The Global Market for Advanced Batteries 2024-2034 covers the whole range of advanced battery technologies utilized in markets including Electric Vehicles and Transportation, Consumer Electronics, Grid Storage and Stationary Battery markets.
This 560+ page market report provides a comprehensive analysis of the global advanced battery market to 2034. It covers all advanced battery technologies including lithium-ion, lithium-metal, lithium-sulfur, sodium-ion, aluminum-ion, redox flow, zinc-based, solid-state, flexible, transparent, printed, and more.
The report analyzes the global market by battery type, end-use market, key technologies, materials, major players, product developments, SWOT analyses, and more. It includes historical data from 2018-2022 and market forecasts to 2034 segmented by battery types and end use markets.
Battery technologies covered in depth:
Lithium-ion
Lithium-metal
Lithium-sulfur
Sodium-ion
Aluminum-ion
Redox flow
Zinc-based
Solid-state
Flexible
Transparent
Printed
End-use markets analyzed include:
Electric vehicles and transportation (e.g. trains, trucks, boats)
Grid storage
Consumer electronics
Stationary batteries
The report includes 290+ company profiles of all the key manufacturers, developers, and suppliers of advanced battery materials, components, technologies, and recycling. Profiles include overviews, products/technologies, manufacturing capabilities, partnerships, etc. Companies profiled include Atlas Materials, CMBlu Energy AG, Enerpoly, ESS Tech, Factorial, Flow Aluminum, Inc., Gotion High Tech, Graphene Manufacturing Group, High Performace Battery Holding AG, Inobat, Inx, Lyten, Our Next Energy (ONE), Sicona Battery Technologies, Sila, Solid Power, Stabl Energy, TasmanIon and VFlowTech.
- RESEARCH METHODOLOGY
- Report scope
- Research methodology
- INTRODUCTION
- The global market for advanced batteries
- 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.
- Grid storage
- Table Competing technologies for batteries in grid storage.
- Consumer electronics
- Table Competing technologies for batteries in consumer electronics
- Stationary batteries
- Table Competing technologies for sodium-ion batteries in grid storage.
- Electric vehicles
- 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
- The global market for advanced batteries
- TYPES OF BATTERIES
- Battery chemistries
- LI-ION BATTERIES
- Technology description
- Table Commercial Li-ion battery cell composition.
- Table Lithium-ion (Li-ion) battery supply chain.
- Table Types of lithium battery.
- SWOT analysis
- Anodes
- Table Li-ion battery anode materials.
- Table Manufacturing methods for nano-silicon anodes.
- Table Markets and applications for silicon anodes.
- Li-ion electrolytes
- Cathodes
- Table Li-ion battery cathode materials.
- Table Key technology trends shaping lithium-ion battery cathode development.
- 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 Comparison table of key lithium-ion cathode materials
- Binders and conductive additives
- Table Li-ion battery Binder and conductive additive materials.
- Separators
- Table Li-ion battery Separator 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.
- Table Comparison of LIB recycling methods.
- Table Comparison of conventional and emerging processes for recycling beyond lithium-ion batteries.
- Global revenues
- Table Global revenues for Li-ion batteries, 2018-2034, by market (Billions USD).
- Technology description
- LITHIUM-METAL BATTERIES
- Technology description
- Lithium-metal anodes
- Challenges
- Energy density
- Anode-less Cells
- Lithium-metal and solid-state batteries
- Applications
- Table Applications for Li-metal batteries.
- SWOT analysis
- Product developers
- Table Li-metal battery developers
- LITHIUM-SULFUR BATTERIES
- Technology description
- Table Comparison of the theoretical energy densities of lithium-sulfur batteries versus other common battery types.
- SWOT analysis
- Global revenues
- Table Global revenues for Lithium-sulfur, 2018-2034, by market (Billions USD).
- Product developers
- Table Lithium-sulphur battery product developers.
- Technology description
- LITHIUM TITANATE AND NIOBATE BATTERIES
- Technology description
- Niobium titanium oxide (NTO)
- Global revenues
- Product developers
- Table Product developers in Lithium titanate and niobate batteries.
- SODIUM-ION (NA-ION) BATTERIES
- Technology description
- 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.
- 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.
- Table Na-ion electrolyte formulations.
- 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
- Product developers
- 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.
- ALL-SOLID STATE BATTERIES (ASSBs)
- Technology description
- Table Types of solid-state electrolytes.
- Table Market segmentation and status for solid-state batteries.
- Features and advantages
- 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
- Bulk type solid-state batteries
- SWOT analysis
- Limitations
- Table Limitations of solid-state thin film batteries.
- Global revenues
- Table Global revenues for All-Solid State Batteries, 2018-2034, by market (Billions USD).
- 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
- Flexible electronics
- Flexible and wearable Metal-sulfur batteries
- Flexible and wearable Metal-air batteries
- Flexible Lithium-ion Batteries
- Table Flexible Li-ion battery prototypes.
- Table Electrode designs in flexible lithium-ion batteries.
- Table Summary of fiber-shaped lithium-ion batteries.
- Flexible Li/S batteries
- Flexible lithium-manganese dioxide (Li–MnO2) batteries
- Flexible zinc-based batteries
- Fiber-shaped batteries
- Table Types of fiber-shaped batteries.
- Energy harvesting combined with wearable energy storage devices
- SWOT analysis
- Global revenues
- Table Global revenues for flexible batteries, 2018-2034, 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
- Table Main 3D Printing techniques for battery manufacturing.
- Table Electrode Materials for 3D Printed Batteries.
- SWOT analysis
- Global revenues
- Table Global revenues for printed batteries, 2018-2034, 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.
- Vanadium redox flow batteries (VRFB)
- Table Vanadium redox flow batteries (VRFB)-key features, advantages, limitations, performance, components and applications.
- Zinc-bromine flow batteries (ZnBr)
- Table Zinc-bromine (ZnBr) flow batteries-key features, advantages, limitations, performance, components and applications.
- 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.
- All-Iron flow batteries
- Table All-Iron flow batteries-key features, advantages, limitations, performance, components and applications.
- Zinc-iron (Zn-Fe) flow batteries
- Table Zinc-iron (Zn-Fe) flow batteries-key features, advantages, limitations, performance, components and applications.
- Hydrogen-bromine (H-Br) flow batteries
- Table Hydrogen-bromine (H-Br) flow batteries-key features, advantages, limitations, performance, components and applications.
- Hydrogen-Manganese (H-Mn) flow batteries
- Table Hydrogen-Manganese (H-Mn) flow batteries-key features, advantages, limitations, performance, components and applications.
- Organic flow batteries
- Table Organic flow batteries-key features, advantages, limitations, performance, components and applications.
- 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.
- Global revenues
- Product developers
- Table Redox flow batteries product developers.
- Technology description
- ZN-BASED BATTERIES
- Technology description
- Market outlook
- Product developers
- Table ZN-based battery product developers.
- COMPANY PROFILES
- 2D Fab AB
- 24M Technologies, Inc.
- AC Biode
- Addionics
- Advano
- Agora Energy Technologies
- AirMembrane Corporation
- Allegro Energy Pty. Ltd.
- Alsym Energy
- Altairnano / Yinlong
- Altris AB
- Aluma Power
- Altech Batteries Ltd.
- Alsym Energy
- Ambri, Inc.
- Ampcera, Inc.
- Amprius, Inc.
- AMTE Power
- Anaphite Limited
- Anthro Energy
- APB Corporation
- Appear Inc.
- Ateios Systems
- Atlas Materials
- Australian Advanced Materials
- Australian Vanadium Limited
- Avanti Battery Company
- AZUL Energy Co., Ltd
- BAK Power Battery
- BASF
- Bedimensional S.p.A
- Bemp Research Company
- BenAn Energy Technology
- BGT Materials Ltd.
- Biwatt Power
- Black Diamond Structures, LLC
- Blackstone Resources
- Blue Current, Inc.
- Blue Solutions
- Blue Spark Technologies, Inc.
- Bodi, Inc.
- BrightVolt, Inc.
- Britishvolt
- Broadbit Batteries Oy
- BTR New Energy Materials, Inc.
- BYD Company Limited
- Cabot Corporation
- California Lithium Battery
- CAPCHEM
- CarbonScape
- CBAK Energy Technology, Inc.
- Contemporary Amperex Technology Co Ltd (CATL)
- Table CATL sodium-ion battery characteristics.
- CellCube
- CellsX
- CENS Materials Ltd.
- Central Glass Co., Ltd.
- CERQ
- Ceylon Graphene Technologies (Pvt) Ltd
- Cham Battery Technology
- Table CHAM sodium-ion battery characteristics.
- Chasm Advanced Materials, Inc.
- Table Chasm SWCNT products.
- Chengdu Baisige Technology Co., Ltd.
- China Sodium-ion Times
- CMBlu Energy AG
- Connexx Systems Corp
- Customcells
- Cymbet
- Dalian Rongke Power
- DFD
- Dotz Nano
- Dreamweaver International
- Ecellix
- Echion Technologies
- ElecJet
- Elestor
- EcoPro BM
- Elegus Technologies
- E-Magy
- Enerpoly AB
- Enfucell Oy
- Enevate
- EnPower Greentech
- Enovix
- Ensurge Micropower ASA
- E-Zinc
- Eos Energy
- Enzinc
- ESS Tech
- EVE Energy Co., Ltd
- Exencell New Energy
- Factorial Energy
- Faradion Limited
- Table Faradion sodium-ion battery characteristics.
- Farasis Energy
- FDK Corporation
- Feon Energy, Inc.
- 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.
- Ganfeng Lithium
- Gelion Technologies Pty Ltd.
- Geyser Batteries Oy
- Global Graphene Group
- General Motors (GM)
- Gnanomat S.L.
- Gotion High Tech
- GQenergy srl
- Grafentek
- Grafoid
- Graphene Batteries AS
- Graphene Manufacturing Group Pty Ltd
- Great Power Energy
- Green Energy Storage S.r.l. (GES)
- GRST
- Guoke Tanmei New Materials
- GUS Technology
- Shenzhen Grepow Battery Co., Ltd. (Grepow)
- Group14 Technologies, Inc.
- Corporation Guangzhou Automobile New Energy (GAC)
- H2 Inc.
- Hansol Chemical
- HE3DA Ltd.
- Hexalayer LLC
- High Performance Battery Holding AG
- HiNa Battery Technologies Limited
- Table HiNa Battery sodium-ion battery characteristics.
- Hirose Paper Mfg Co., Ltd.
- Hitachi Zosen Corporation
- Horizontal Na Energy
- HPQ Nano Silicon Powders Inc.
- Hua Na New Materials
- Hybrid Kinetic Group
- Idemitsu Kosan Co., Ltd.
- Ilika plc
- Imprint Energy, Inc.
- Indi Energy
- Inna New Energy
- Innolith
- InnovationLab
- Inobat
- Intecells
- Invinity Energy Systems
- Ionblox, Inc.
- Ionic Materials
- Ion Storage Systems LLC
- I-Ten SA
- Janaenergy Technology
- Jenax, Inc.
- Table Battery performance test specifications of J. Flex batteries.
- 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
- Kusumoto Chemicals
- Largo, Inc.
- Lepu Sodium Power
- LeydenJar Technologies
- LG Energy Solutions
- LiBest, Inc.
- Libode New Material
- LiCAP Technologies, Inc.
- Li-Fun Technology
- LiNa Energy
- Table LiNa Energy battery characteristics.
- LIND Limited
- Lionrock Batteries
- LionVolt BV
- Li-S Energy
- Lithium Werks BV
- Lucky Sodium Storage
- Lyten, Inc.
- Merck & Co., Inc.
- Microvast
- Mitsubishi Chemical Corporation
- mPhase Technologies
- Murata Manufacturing Co., Ltd.
- NanoGraf Corporation
- Nacoe Energy
- nanoFlocell
- Nanom
- NanoPow AS
- Nanoramic Laboratories
- Nano One Materials
- Nanoresearch, Inc.
- Nanotech Energy Inc.
- Natrium Energy
- Table Natrium Energy battery characteristics.
- Natron Energy
- Nawa Techonologies
- NDB
- NEC Corporation
- NEI Corporation
- Neo Battery Materials Ltd.
- Nexeon
- NGK Insulators Ltd.
- Nimbus Materials, Inc.
- Nippon Chemicon
- Nippon Electric Glass
- Noco-noco
- Noon Energy
- Nordische Technologies
- Northvolt AB
- Nuvola Technology
- Nyobolt
- OneD Material
- Paraclete Energy
- Paragonage
- Piersica
- PJP Eye Ltd.
- PolyJoule
- PolyPlus Battery Company
- Posco Chemical
- Power Textiles Limited
- prelonic technologies
- Prieto Battery
- Primearth EV Energy Co., Ltd.
- Prime Batteries Technology
- Primus Power
- Printed Energy Pty Ltd.
- ProfMOF AS
- Prologium Technology Co., Ltd.
- Qi Na New Energy
- Qing Tao Energy Development
- QuantumScape Battery Corporation
- Quino Energy
- Real Graphene
- RedFlow
- Ronbay Technology
- SafeLi, LLC
- 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.
- Shenzhen Kstar Science and Technology (Kstar)
- Showa Denko K. K.
- Sicona Battery Technologies Pty Ltd
- Sila Nanotechnologies
- Silatronix
- Sicona Battery Technologies
- Sinergy Flow
- Sionic Energy
- Sodion Energy Pte. Ltd.
- Soelect, Inc.
- Solid Power Inc.
- Sparkz, Inc.
- Stora Enso Oyj
- StoreDot
- Stabl Energy GmbH
- STMicroelectronics
- Sumitomo Metal Mining
- Svolt Energy
- TasmanIon
- TDK
- Tentok Paper Co. Ltd.
- TeraWatt Technology
- TexPower EV Technologies Inc.
- Tiamat Energy
- Toray Industries
- Toshiba
- Tokushu Tokai Paper Co., Ltd.
- Trion Battery
- Ulvac
- UNIGRID Battery
- Urbix Resources
- Vaulta
- Verkor
- VFlow Tech
- Visblue
- Volexion
- Volt14 Solutions
- Volterion GmbH
- VoltStorage
- VRB Energy
- WattJoule Corporation
- Weifang Energy Technology Co., Ltd.
- WeView Energy
- Zeptor Corporation
- Zero Emissions Developments (ZED)
- Zeta Energy Corporation
- Zinc 8 Energy Solutions Inc.
- Zoolnasm (Zhongna Energy)
- REFERENCES
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