Table of Contents
Overview
New York, NY – August 18, 2025 – The Global Printed Battery Market is projected to reach USD 6,104.4 million by 2034, up from USD 243.7 million in 2024, with a robust CAGR of 38.0% during the 2025–2034 forecast period. In 2024, North America led the market, holding a 41.3% share and generating USD 100.6 million in revenue.
Printed battery technology is a groundbreaking development in energy storage, offering lightweight, flexible, and compact designs. Utilizing printing methods like screen printing and inkjet printing, these batteries can be integrated into substrates such as paper, plastic, and textiles. This makes them ideal for applications in wearable electronics, medical devices, smart packaging, and IoT sensors, where small, adaptable power sources are critical.
In India, government support is significantly advancing the printed battery and related advanced materials sectors. The Production-Linked Incentive (PLI) scheme for Advanced Chemistry Cells (ACC), with an allocation of approximately USD 2.5 billion (₹18,000 crore), aims to boost domestic battery manufacturing and reduce import reliance.
Companies like Reliance Industries and Amara Raja are investing in gigafactories with a combined capacity of 10 GWh to support this initiative. The Indian government is also promoting electric vehicle (EV) adoption, targeting a rise from 2% to 30% of total vehicle sales. The Ministry of Heavy Industries has allocated 40 GWh of a planned 50 GWh capacity under the PLI scheme to enhance domestic cell production.
Additionally, in November 2023, India introduced a USD 960 million (₹8,000 crore) incentive program to support the development of next-generation battery plants with a combined 20 GWh capacity, offering performance-linked benefits over five years. These initiatives strengthen India’s role in the global battery manufacturing landscape, supporting the shift toward electric mobility and renewable energy solutions.
Key Takeaways
- The Global Printed Battery Market is projected to reach approximately USD 6,104.4 million by 2034, rising from USD 243.7 million in 2024, with a strong CAGR of 38% during the forecast period.
- The 1.5 V to 3 V category dominated in 2024, accounting for over 56.8% of the total market share, owing to its suitability for compact electronic applications.
- The Anode segment led the market in 2024, capturing more than 34.2% of the global share, due to its essential role in battery efficiency and performance.
- Non-Rechargeable printed batteries held a commanding position in 2024, with a market share exceeding 65.9%, driven by demand for low-cost, disposable power sources.
- Consumer Electronics emerged as the top application area, securing over 32.4% share in 2024, supported by increasing use in wearables, medical devices, and smart gadgets.
- North America led the global printed battery market in 2024, holding a 41.3% share, valued at approximately USD 100.6 million, driven by advanced manufacturing, R&D activities, and adoption across IoT and healthcare sectors.
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Report Scope
| Market Value (2024) | USD 243.7 Million |
| Forecast Revenue (2034) | USD 6,104.4 Million |
| CAGR (2025-2034) | 38.0% |
| Segments Covered | By Voltage Range (Below 1.5 V, Between 1.5 V to 3 V, Above 3V), By Components (Anode, Cathode, Electrolyte, Collectors), By Product Type (Rechargeable, Non-Rechargeable), By Application (Consumer Electronics, Energy Harvesting, Medical Devices, Smart Packaging, Smart Cards, Wearable Technology, Others) |
| Competitive Landscape | Enfucell Oy, Samsung SDI Co., Ltd, Xymox Technologis Inc |
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Key Market Segments
By Voltage Range Analysis
The 1.5 V to 3 V segment led the global printed battery market in 2024, securing a 56.8% share. Its dominance stems from its compatibility with compact, low-power electronics like smart cards, medical patches, wearable sensors, and RFID tags. This voltage range strikes an optimal balance between power output and size, making it ideal for flexible, miniaturized devices where space and energy efficiency are critical. Manufacturers favor this range to meet the performance demands of space-constrained applications.
By Components Analysis
In 2024, the anode segment commanded a 34.2% share of the global printed battery market. The anode’s pivotal role in determining battery capacity, charge rate, and lifespan drives its prominence. Advanced anode materials, such as printed zinc, carbon-based inks, and hybrid composites, enhance conductivity, charge speed, and flexibility, making them essential for high-performance printed batteries used in flexible electronics, medical devices, and smart packaging.
By Product Type Analysis
Non-rechargeable printed batteries dominated in 2024, capturing a 65.9% market share. Their widespread use in disposable devices like medical patches, RFID tags, smart labels, and promotional electronics fuels this lead. These batteries are cost-effective, easy to mass-produce, and require no charging infrastructure, making them ideal for single-use applications. Their thin, flexible design aligns with the demand for lightweight, compact power solutions.
By Application Analysis
Consumer electronics held a 32.4% share of the global printed battery market in 2024, driven by the growing need for compact, flexible power sources in devices like smartwatches, fitness trackers, hearing aids, wireless earbuds, and electronic patches. Printed batteries’ thin profiles and design flexibility make them a perfect fit for these sleek, portable gadgets, where traditional bulky batteries are impractical.
Regional Analysis
In 2024, North America led the global printed battery market, holding a 41.3% share, equivalent to USD 100.6 million in revenue. This dominance is driven by the region’s advanced electronics manufacturing, strong demand for wearable devices, and widespread use of smart packaging and RFID technologies in retail and healthcare.
The United States spearheads innovation, fueled by collaborations among research institutions, battery manufacturers, and electronics firms. Government-supported initiatives and funding for printed electronics and energy storage further accelerate market growth.
North America’s investment in Internet of Things (IoT) infrastructure also boosts printed battery adoption, as these compact, flexible power sources enable applications like asset tracking, remote sensors, and wireless health monitors. Additionally, the region’s focus on sustainable energy solutions drives demand for printed batteries, which offer a low environmental footprint and minimal use of toxic materials.
Top Use Cases
- Wearable Devices: Printed batteries power wearable electronics like smartwatches and fitness trackers. Their thin, flexible design fits seamlessly into compact gadgets, providing lightweight energy without compromising comfort or style. These batteries support the growing demand for portable, user-friendly devices that monitor health metrics in real time.
- Smart Packaging: Printed batteries enable smart packaging for products like food and medicine. They are power sensors that track temperature, tampering, or freshness, ensuring product safety. Their low cost and flexibility make them ideal for disposable packaging, enhancing supply chain transparency and consumer trust.
- Medical Patches: Printed batteries are used in medical patches for continuous health monitoring, such as glucose or heart rate sensors. Their ultra-thin, flexible nature ensures comfort on skin, while providing reliable power for real-time data collection, improving patient care, and remote diagnostics.
- RFID Tags: Printed batteries power RFID tags for asset tracking in retail and logistics. Their compact size and low cost allow integration into labels for inventory management, enabling efficient, wireless tracking of goods across supply chains, reducing losses, and improving operational efficiency.
- IoT Sensors: Printed batteries support IoT sensors in smart homes and infrastructure. Their customizable shapes power small devices like environmental monitors or structural sensors, enabling wireless, energy-efficient solutions for real-time data collection in smart cities and buildings.
Recent Developments
1. Enfucell Oy
Enfucell Oy, a Finnish company specializing in soft printed batteries, has recently expanded its Flexible, Thin, and Eco-friendly batteries for IoT and medical devices. Their SoftBattery technology now supports higher energy density and custom shapes for wearable applications. Enfucell is also collaborating with European smart-label manufacturers to integrate printed batteries into disposable medical sensors.
2. Samsung SDI Co., Ltd
Samsung SDI is advancing printed solid-state batteries (PSSB) for next-gen wearables and foldable electronics. Their recent prototype, showcased at CES 2024, features ultra-thin, flexible printed batteries with improved cycle life. Samsung is also investing in inkjet-printed electrode technology to enhance manufacturing efficiency. Additionally, they are working on eco-friendly materials to reduce reliance on rare metals.
3. Xymox Technologies Inc. (Now part of DSM)
Xymox Technologies, under DSM’s innovation wing, has developed hybrid printed batteries for smart packaging and RFID tags. Their latest breakthrough involves stretchable printed batteries for e-textiles and health-monitoring patches. Xymox’s roll-to-roll printed battery tech enables cost-effective mass production. A recent partnership with a U.S.-based IoT firm aims to deploy printed batteries in perishable goods tracking. DSM is also focusing on sustainable, recyclable battery materials.
Conclusion
Printed Batteries are transforming energy storage with their thin, flexible, and cost-effective designs. They cater to the rising demand for compact power solutions in wearables, smart packaging, medical devices, RFID tags, and IoT sensors. As technology advances, their eco-friendly materials and scalability will drive wider adoption, fueling innovation across industries and supporting sustainable energy trends.
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