The battery market has suddenly become alive again in recent years. On one hand, batteries are moving to new form factors, becoming ultra-thin, flexible, rollable, stretchable, etc. On the other hand, manufacturers are scrambling to offer large batteries aimed at addressing the large-sized electric vehicle, residential and grid applications. This market study is focused on the former.
The new batteries can be described from several dimensions including:
-Footprints (micro-batteries or large-area batteries),
-Thickness (thin-film or bulky batteries),
-Mechanical properties (flexibility, bendability, rollability, stretchability, foldability, etc.)
-Manufacturing methods (e.g. printing, coating, etc.) and
-Technologies (e.g. solid-state batteries, lithium-polymer batteries, carbon-zinc batteries, etc.)
IDTechEx has been tracking flexible, thin-film, printed batteries with above-mentioned angles since 2014. This report will provide technology development, market progress, application areas, current status, future trends & opportunities and global player activities with assessment and analysis.
Figure 1: Market descriptions by territory
Source: IDTechEx
Flexible, thin and/or printed batteries (or batteries with novel form factors) are back on the agenda thanks to the rise of Internet of Things, wearables and environmental sensors. These applications require new features and battery designs that traditional battery technologies simply cannot provide. This has opened the door to innovation and added a new dimension to the global competition between battery suppliers.
Transforming industry
This is a fast-changing industry, with its technologies in a state of rapid progress as new designs, methods and modified chemistries are frequently announced. The business landscape is also being dramatically altered as many companies are now gearing up to progress their lab scale technologies into mass production. These are exciting years for this emerging technology.
The composition of the target market is undergoing drastic change, driven by the emergence of new addressable market categories. Traditionally, the micro-power thin and printed batteries were used in skin patches, RFID tags and smart cards. Today, however, many new emerging applications have appeared, enticing many large players to enter the foray and thus transforming a business landscape that was once populated predominantly by small firms.
IDTechEx provides detailed technology assessment and benchmarking, ten-year market forecasts segmented by application and technology type, and detailed interview-based business intelligence and profiles on key players and large end-users.
In this study IDTechEx has drawn upon at least 27 direct interviews and visits with key suppliers and large end-users from a variety of sectors and years of accumulated experience and market knowledge for the end use applications such as active RFIDs, smart cards, skin patches, smart packaging and recently wearables and IoT. Our team working on this project is highly technical, enabling it to fully understand the merits and challenges of each technology in this complex landscape.
Complex landscape to navigate
The market and technology landscape are complex. There are no black-and-white or clear technology winners and the definition of market requirements is in a constant state of flux.
Indeed, on the technology side, there are many solutions that fall within the broad category of thin film, flexible or printed batteries. These include printed batteries, thin-film batteries, advanced lithium-ion batteries, solid-state batteries, micro-batteries, stretchable batteries, thin flexible supercapacitors and a few more. It is therefore a confusing technology landscape to navigate and betting on the right technology is not straightforward.
On the market side, many applications are still emerging, and the requirements are fast evolving. The target markets are also very diverse and not overlapping, each with different requirements for power, lifetime, thinness, cost, charging cycles, reliability, flexibility, etc. This diversity of requirements means that no thin film battery offers a one-size-fits-all solution.
Figure 2: Applications of batteries with new form and structural factors
Source: IDTechEx
Applications
Wearable technology and electronic textiles are a major growth area for thin film and flexible batteries. Conventional secondary batteries may meet the energy requirements of wearable devices, but they struggle to achieve flexibility, thinness and light weight. These new market requirements open up the space for energy storage solutions with novel form factors. Indeed, the majority of thin-film battery companies tell us that they have on-going projects in the wearable technology field. High-energy thin film batteries have the highest potential here followed by printed rechargeable zinc batteries, provided the latter can improve.
The healthcare sector is also a promising target market. Skin patches using printed batteries are already a commercial reality, while IDTechEx anticipates that the market for disposable medical devices requiring micro-power batteries will also expand. This is a hot space as the number of skin patch companies is rapidly rising. Here, printed zinc batteries have the highest potential but price needs to continue falling before a higher market uptake takes place. Here too, new form factors will be the key differentiator, compared to the high-volume incumbents such as coin cell batteries. Medical diagnostic devices, medical sensors are also promising markets, although the current thin battery technology is not mature enough yet to be applied straightaway.
Connected device applications is another important trend especially combining special form factor and harsh temperature requirements. Here, there is a trend to combine energy harvesting with thin batteries with superior form factors.
Active and battery-assisted passive RFID is also a potential target market, although coin-cells are the main solutions unless there is a stringent requirement for laminar or flexible design such as in car plates. It is also in these small niches that thin film batteries might find a place.
Smart cards also remain an attractive sector and several thin-film battery technologies have been optimised to meet the lamination requirements for card manufacture. The price is however too steep to enable widespread market penetration. The emergence of online and mobile banking carries a long-term threat of substitution.
Technology assessment
IDTechEx provides a detailed assessment of all the key energy storage technologies that fall under the broad category of thin film, flexible or printed batteries. It provides a critical and quantitative analysis and benchmarks different solutions.
Market forecasts
IDTechEx has developed detailed and granular market forecasts segmented by technology type as well as end use applications. These forecasts are based on (a) primary information obtained through our direct interview programme with suppliers and end-users, attending conferences globally and also organising our own conferences on wearable technologies, RFIDs and printed electronics; and (b) a critical technical assessment of competing technologies.
The technologies and end use applications covered are:
End-uses
- Wrist-worn wearables
- Foot-worn wearables
- Other wearables
- Skin patch
- Smart phone
- Power bank/Power case
- RFID
- Smart packaging
- Smart card
- Connected devices
- Backup power
- Interactive Media, Toys, Games, Cards
- Others
Technologies included in this report:
- LiPON-based
- Stackable thin-film battery
- 2D and 3D Micro-battery
- Primary Li/CFx micro-battery
- Flexible lithium-ion battery
- Thin and flexible alkaline battery
- Lithium manganese disposable battery
- Laminated packaged lithium-polymer cells
- Batteries with highly conductive polymer gel electrolyte
- Solid-state battery
- Cable-type battery
- Large-area multi-stacked textile battery
- Stretchable battery
- Foldable Kirigami lithium-ion battery
- Fibre-shaped lithium-ion battery that can be woven into electronic textiles
- Printed zinc-carbon disposable battery
- Printed silver zinc battery
- Printed rechargeable NMH battery
- Needle battery
- Transparent battery
- Laminar fuel cells
- Thin and flexible supercapacitor
- Printed supercapacitors
With a special focus and analysis on:
- Thin-film solid-state battery
- Bulk solid-state battery
- Advanced lithium-ion battery
- Primary lithium-based battery
- Zinc-carbon battery
- Silver zinc battery
Flexible,US$ 5,995