Battery technology is experiencing enormous investment as organizations race to meet the demand of over 1,500 GWh needed in 2030 for electric vehicles, residential and grid applications.
However, separate to this are those focusing on an entirely different area of battery innovation, with significantly less competition and addressing different markets, where they are radically changing the form factor from thick, rigid, bulky batteries that are used today to ultra thin, flexible, rollable and even stretchable.
According to the IDTechEx report "Flexible, Printed and Thin Film Batteries 2020-2030" the market for such batteries will grow from just $22million in 2020 to $109million in 2025 and thereafter $500million in 2030.
Over ten years of technology development is finally translating into commercial success as the new form factors meet needs for thinner, flexible electronics - it is not about replacing the coin cell battery or battery pouch with a flexible version, but increasingly designing products around the newly shaped battery components.
Leading the way is wearable technology, a $66 Billion sector in 2020, whereby their nature products need to confirm to the shape and movement of the wearer and not the other way round. This includes consumer electronics products such as wrist worn wearables, accounting for 29% of the market of flexible, printed and thin film batteries in 2025 to healthcare products in for the form of electronic skin patches which need to be low profile and comfortable for the user, accounting for 23% of the market in 2025.
Applications are very diverse due to different requirements for power, lifetime, thinness, cost, charging cycles, reliability, flexibility and other parameters.
This diversity of requirements means that no thin film battery offers a one-size-fits-all solution and there many different technologies that have been developed that fall within the broad category of thin film, flexible or printed batteries. These are all assessed and compared, based on interviews with the key global suppliers, in the IDTechEx report. These include printed batteries, thin-film batteries, advanced lithium-ion batteries, solid-state batteries, micro-batteries, stretchable batteries, thin flexible supercapacitors and others with 23 battery technologies assessed and compared in the IDTechEx report. Each have different capabilities and opportunities, resulting in a broad range of use cases.
IDTechEx finds that while Zinc-Carbon batteries are dominate in terms of market size in 2020, while by 2025 bulk solid state batteries will lead by market size, followed by advanced lithium-ion batteries.
With the ongoing rapid improvements in battery performance, betting on the right technology is not straightforward. The IDTechEx report assess and compares 23 relevant battery technologies, their suppliers and 13 application segments, with ten year forecasts.
The IDTechEx report "Flexible, Printed and Thin Film Batteries 2020-2030" provides a complete assessment of the technologies, providers and applications, from the successes and failures over the last ten years of development to giving an impartial outlook of the opportunities of these technologies. Forecasts are given by application and battery technology and are assessed in light of COVID-19 implications.
The report forms part of the energy storage research practice at IDTechEx, led by Dr Xiaoxi He, covering new and evolving battery technologies and markets including Li-ion batteries, advanced new battery technologies, battery recycling and second life batteries. The application forecasts and market needs are based on work conducted at IDTechEx on many diverse industries from electric vehicles to residential energy storage and wearables to RFID.