The Global Market for Flexible, Printed, and Thin Film Batteries 2022-2032
Demand for advanced batteries has increased greatly in recent years and the market for Flexible, Printed, and Solid-State Thin Film batteries will explode in the next decade in Internet of Things (IoT), wearables, flexible electronics, sensors and electric vehicle applications.
Given the increasing demands for flexible and wearable electronics, it is necessary to develop corresponding energy storage devices that are mechanically flexible, foldable and even stretchable. These emerging energy storage devices also need to be lightweight and have high electrochemical performance with a high energy density, high rate capability, and long cycling life.
Mass manufacturing of solid-state batteries, while in its infancy, will have a huge impact on the market for electric vehicles, allowing for enhanced safety, range and performance. As well as requiring characteristics such as low cost and high energy density and power density, battery requirements for new technologies include:
small footprint (conventional batteries take up to 40% of the space of wearables and mobile phones)
flexibility
various form factors
shape conformability
easy integration with devices.
The Global Market for Flexible, Printed, and Thin Film Batteries 2022 covers all the latest developments, key player activities, end user market applications and current and future trends.
Report content includes:
State of market and technology developments for Flexible, Printed, and Solid-State Thin Film batteries, applications, future trends & opportunities and global players products and activities.
Technologies covered include printed batteries, solid-state batteries, thin-film lithium batteries, 2D and 3D Micro-batteries, carbon-zinc batteries, stretchable batteries, rollable batteries, Fiber-shaped lithium-ion batteries, foldable batteries, cable-shaped batteries, thin flexible supercapacitors, transparent batteries.
Global revenues by battery types and markets 2020-2032
Markets covered include wearables, electronic textiles, medical devices, diagnostics, implantables and skin patches, cosmetic, portable electronics, internet of things wireless sensor and connected device, radio-frequency identification (RFID) tags, smart cards, and smart labels for food packaging, supply-chain logistics etc.
121 in depth company profiles. Companies profiled include Addionics, Ateios Systems, Blackstone Resources AG, Blue Solutions, Blue Spark Technologies, Inc., Britishvolt, Factorial Energy, Ilika, ProLogium, QuantumScape, Sakuu, Solid Power, and Sparkz.
- RESEARCH SCOPE AND METHODOLOGY
- Report scope
- Market coverage
- Research methodology
- Primary research
- Secondary research
- EXECUTIVE SUMMARY
- Current market for batteries
- Market drivers
- Table Market drivers for use of advanced technologies in batteries.
- Flexible and stretchable batteries for electronics
- Flexible and stretchable supercapacitors
- Battery market megatrends
- Table Battery market megatrends.
- The global market for thin film, printed, flexible & stretchable, batteries
- Global market to 2032, by types and markets (revenues)
- Market challenges
- Table Market challenges for flexible, printed and thin film batteries.
- Industry developments 2020-2022
- Table Flexible, printed and thin film batteries industry developments 2020-2022.
- SOLID-STATE THIN FILM BATTERIES
- Introduction
- Table Market segmentation and status for solid-state batteries.
- Features and advantages
- Technical specifications
- Types
- Microbatteries
- Bulk type solid-state batteries
- Shortcomings and market challenges for solid-state thin film batteries
- Table Shortcoming of solid-state thin film batteries.
- Introduction
- FLEXIBLE BATTERIES (including stretchable, rollable, bendable and foldable)
- Table Flexible battery applications and technical requirements.
- Technical specifications
- 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.
- Electrode designs
- Table Electrode designs in flexible lithium-ion batteries.
- Fiber-shaped Lithium-Ion batteries
- Table Summary of fiber-shaped lithium-ion batteries.
- Stretchable lithium-ion batteries
- Origami and kirigami 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
- Transparent batteries
- Components
- Table Components of transparent batteries.
- Components
- Degradable batteries
- Components
- Table Components of degradable batteries.
- Components
- Flexible and stretchable supercapacitors
- Nanomaterials for electrodes
- Table Applications of nanomaterials in flexible and stretchable supercapacitors, by advanced materials type and benefits thereof.
- Nanomaterials for electrodes
- Energy harvesting combined with wearable energy storage devices
- PRINTED BATTERIES
- Technical specifications
- Components
- Table Main components and properties of different printed battery types.
- Key features
- Materials
- Printing techniques
- Table 2D and 3D printing techniques.
- Table Printing techniques applied to printed batteries.
- Applications
- Components
- 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
- Printed supercapacitors
- 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.
- Technical specifications
- MARKETS FOR FLEXIBLE, PRINTED AND THIN FILM BATTERIES
- Internet of Things (IoT)
- Table Devices for IoT power sources.
- Health and wellness monitoring devices
- Table Examples of wearable medical device products.
- Table Wearable bio-signal monitoring devices.
- Medical implantables
- Skin patches
- Minimally-invasive and non-invasive glucose monitoring products
- Table Minimally-invasive and non-invasive glucose monitoring products.
- Cardiovascular monitoring
- Temperature monitoring
- Minimally-invasive and non-invasive glucose monitoring products
- Smart Cards
- RFID tags
- Table Types of RFID tags.
- Low-frequency (LF) RFID tags: 30 KHz to 300 KHz
- High-frequency (HF) RFID tags: 3 to 30 MHz
- Ultra-high-frequency (UHF) RFID tags: 300 MHz to 3GHz
- Active, passive and semi-passive RFID tags
- Wearables
- Table Market requirements for energy storage in wearables.
- Energy sources for wearable sensors
- Table Flexible batteries types in wearable sensors.
- Wrist-worn wearables
- Table Wearable health monitors.
- Table Main smart watch producers and products.
- Sports and fitness trackers
- Table Wearable sensor products for monitoring sport performance.
- Foot-worn wearables
- Table Companies and products in smart footwear.
- E-textiles
- Textile-based batteries
- Energy harvesting
- Powering E-textiles
- Advantages and disadvantages of main battery types for E-textiles
- Table Advantages and disadvantages of batteries for E-textiles.
- Bio-batteries
- Challenges for battery integration in smart textiles
- Table Comparison of prototype batteries (flexible, textile, and other) in terms of area-specific performance.
- Automotive, Transport
- Micro/Nano Electromechanical Systems (MEMS/NEMS)
- Smart packaging
- Foldable smartphones and displays
- Table Foldable smartphones, laptops and tablets, on or near market.
- Internet of Things (IoT)
- COMPANY PROFILES
- 24M Technologies, Inc.
- 3DOM Inc.
- Table 3DOM separator.
- AC Biode
- Addionics
- AirMembrane Corporation
- Ampcera, Inc.
- Amprius, Inc.
- Anaphite Limited
- APB Corporation
- Ateios Systems
- Australian Advanced Materials
- AZUL Energy Co., Ltd
- Black Diamond Structures, LLC
- Blackstone Resources
- Blue Current, Inc.
- Blue Solutions
- Blue Spark Technologies, Inc.
- Bodi, Inc.
- BrightVolt, Inc.
- Britishvolt
- CellsX
- CENS Materials Ltd.
- Connexx Systems Corp
- Cymbet
- Dotz Nano
- Dreamweaver International
- E-Magy
- Enfucell Oy
- Ensurge Micropower ASA
- Evonik
- Factorial Energy
- FDK Corporation
- FlexEnergy LLC
- Forge Nano, Inc.
- Fraunhofer Institute for Electronic Nano Systems (ENAS)
- Front Edge Technology
- Fuelium
- Fuji Pigment Co., Ltd.
- Fujitsu Laboratories Ltd.
- Ganfeng Lithium
- Gelion Technologies Pty Ltd.
- Global Graphene Group
- General Motors (GM)
- GQenergy srl
- Grafoid
- Graphene Batteries AS
- Graphene Manufacturing Group Pty Ltd
- Shenzhen Grepow Battery Co., Ltd. (Grepow)
- Group14 Technologies, Inc.
- Corporation Guangzhou Automobile New Energy (GAC)
- Hansol Chemical
- HE3DA Ltd.
- Hexalayer LLC
- Hitachi Zosen Corporation
- HPQ Nano Silicon Powders Inc.
- Hybrid Kinetic Group
- Idemitsu Kosan Co., Ltd.
- Ilika plc
- Imprint Energy, Inc.
- Intecells
- Ionic Materials
- Ion Storage Systems LLC
- I-Ten SA
- Jenax, Inc.
- Table Battery performance test specifications of J. Flex batteries.
- Johnson Energy Storage, Inc.
- Johnson Matthey
- LG Chemical, Ltd.
- LiBest, Inc.
- LiCAP Technologies, Inc.
- Lionrock Batteries
- LionVolt BV
- Lithium Werks BV
- Lyten, Inc.
- Merck & Co., Inc.
- Murata Manufacturing Co., Ltd.
- NanoGraf Corporation
- Nanoramic Laboratories
- Nano One Materials
- Nanotech Energy Inc.
- Nawa Techonologies
- NDB
- NEC Corporation
- NEI Corporation
- NGK Insulators Ltd.
- Nimbus Materials, Inc.
- Nippon Chemicon
- OneD Material
- PJP Eye Ltd.
- PolyPlus Battery Company
- Power Textiles Limited
- prelonic technologies
- Prieto Battery
- Printed Energy Pty Ltd.
- Prologium Technology Co., Ltd.
- Qing Tao Energy Development
- QuantumScape Battery Corporation
- Sakuú Corporation
- SaltX Technology AB
- Samsung SDI
- Saratoga Energy Corporation
- Semiconductor Energy Laboratory Co., Ltd.
- SES
- Sicona Battery Technologies Pty Ltd
- Sila Nanotechnologies
- Silatronix
- Sionic Energy
- Soelect, Inc.
- Solid Power Inc.
- Sparkz, Inc.
- StoreDot
- STMicroelectronics
- TDK
- Tentok Paper Co. Ltd.
- TeraWatt Technology
- Toray Industries
- Tokushu Tokai Paper Co., Ltd.
- Ulvac
- UNIGRID Battery
- Urbix Resources
- Vaulta
- Volexion
- REFERENCES
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