Batteries for Skin Patches Market - Global Industry Size, Share, Trends, Opportunity, and Forecast, Segmented By Battery Type (Rechargeable Batteries, Non-Rechargeable Batteries), By Voltage Range (Below 1.5V, 1.5V to 3V, Above 3V), By End-User (Hospitals and Clinics, Homecare Settings, Research and Development Centers), By Region & Competition, 2020-2030F

Market Overview

Global Batteries for Skin Patches Market was valued at USD 2.48 billion in 2024 and is expected to reach USD 5.20 billion by 2030 with a CAGR of 12.95% during the forecast period.

The Batteries for Skin Patches Market refers to the specialized segment of the power supply industry that provides compact, lightweight, and flexible battery solutions specifically designed for skin-adherable wearable patches. These skin patches are typically used in applications such as remote health monitoring, chronic disease management, drug delivery, fitness tracking, cosmetic treatments, and diagnostic tools. As these patches require a continuous, reliable power source that can operate safely in contact with human skin, the batteries used must meet stringent standards in terms of biocompatibility, flexibility, durability, and energy efficiency.

This market is witnessing increasing attention due to the broader growth of wearable medical technology and the growing consumer preference for non-invasive, real-time health monitoring systems. Batteries play a crucial role in enabling the seamless operation of these devices, powering sensors, microprocessors, and wireless communication modules embedded within the patch. Key battery types used in this domain include thin-film lithium batteries, printed batteries, zinc-air batteries, and other miniaturized power sources that can either be disposable or rechargeable depending on the application

The Batteries for Skin Patches Market is expected to grow substantially in the coming years due to several favorable trends. The increasing prevalence of chronic conditions such as diabetes, cardiovascular disorders, and respiratory ailments is driving the demand for wearable monitoring patches. Additionally, aging populations in many developed and developing countries are fueling interest in remote healthcare and continuous monitoring solutions that can reduce hospital visits and improve quality of life. Technological advancements in flexible electronics and energy storage are also playing a pivotal role in enhancing battery performance and making skin patches more user-friendly, discreet, and long-lasting.

Key Market Drivers

Rising Demand for Remote Healthcare Monitoring Solutions

The Batteries for Skin Patches Market is experiencing significant growth due to the increasing demand for remote healthcare monitoring solutions, driven by the global shift toward telemedicine and patient-centric care models. As healthcare systems prioritize accessibility and efficiency, skin patches equipped with advanced batteries enable continuous monitoring of vital signs such as heart rate, glucose levels, and temperature, allowing real-time data transmission to healthcare providers without requiring in-person visits.

This is particularly critical for managing chronic conditions like diabetes and cardiovascular diseases, where timely interventions can improve patient outcomes. The surge in telehealth adoption, accelerated by the need for remote care during global health crises, has amplified the reliance on wearable devices that depend on compact, efficient batteries to ensure uninterrupted functionality. These batteries must be lightweight, flexible, and capable of supporting long-term monitoring, aligning with the needs of patients seeking non-invasive solutions. Advancements in battery technology, such as the development of flexible lithium-ion and solid-state batteries, are enabling manufacturers to meet these demands while enhancing user comfort and device reliability.

The integration of skin patches into broader digital health ecosystems, supported by investments in IoT and connected devices, further fuels this demand, as batteries play a pivotal role in powering sensors and wireless communication modules for seamless data transfer. This driver is reshaping healthcare delivery by making remote monitoring scalable and cost-effective, particularly in regions with limited access to traditional healthcare infrastructure.

A 2023 report from the World Health Organization noted that telemedicine consultations globally increased by 65% from 2019 to 2022, reflecting a growing reliance on remote monitoring technologies. Approximately 1.2 billion wearable devices, including skin patches, were in use worldwide by 2024, with 70% requiring advanced battery systems for continuous operation, highlighting the critical role of batteries in supporting remote healthcare solutions.

Growing Prevalence of Chronic Diseases

The escalating prevalence of chronic diseases worldwide is a major driver for the Batteries for Skin Patches Market, as these conditions necessitate continuous health monitoring and management. Diseases such as diabetes, hypertension, and cardiovascular disorders require regular tracking of physiological parameters, which skin patches facilitate through non-invasive, real-time data collection. Batteries are essential to power these devices, ensuring consistent performance for applications like continuous glucose monitoring and electrocardiogram tracking.

The global rise in chronic disease incidence, driven by aging populations and lifestyle factors, has increased the demand for wearable medical devices that rely on reliable, long-lasting batteries. For instance, skin patches used for diabetes management must operate for extended periods without recharging to provide uninterrupted glucose readings, making battery efficiency a critical factor. Innovations in battery design, such as biocompatible and rechargeable options, are addressing the need for durability and patient comfort, further driving market growth. As healthcare providers and patients prioritize proactive disease management, the role of batteries in enabling precise, continuous monitoring is becoming indispensable, positioning the Batteries for Skin Patches Market as a vital component of modern healthcare solutions.

According to the International Diabetes Federation, 537 million adults were living with diabetes in 2021, a number projected to reach 643 million by 2030. Over 40% of these patients use wearable devices for glucose monitoring, with 85% of such devices relying on lithium-based batteries, underscoring the critical demand for advanced battery solutions in chronic disease management.

Advancements in Battery Technology and Miniaturization

Technological advancements in battery design and miniaturization are significantly propelling the Batteries for Skin Patches Market by enabling the development of compact, flexible, and high-performance power sources tailored for wearable medical devices. The demand for skin patches that are lightweight, conformable to the skin, and capable of extended operation has driven innovations in lithium-ion, lithium-polymer, and solid-state batteries, which offer high energy density and flexibility. These advancements allow manufacturers to create ultra-thin batteries that integrate seamlessly into skin patches without compromising user comfort or device functionality.

Miniaturization is critical for applications like drug delivery systems and health monitoring patches, where space constraints are a key consideration. Additionally, the development of energy-efficient batteries with improved cycling stability and rechargeability is addressing challenges related to limited battery life, a common restraint in wearable devices. Research into eco-friendly and biocompatible battery materials is also gaining traction, aligning with the growing emphasis on sustainability in healthcare. These technological breakthroughs are enabling the production of skin patches that meet stringent medical requirements while enhancing patient compliance, thereby driving the market’s growth and expanding its application scope across healthcare and wellness sectors.

A 2024 study by the International Energy Agency reported that the global production of flexible lithium-ion batteries for wearables grew by 30% from 2020 to 2023. Over 60% of skin patch devices launched in 2024 incorporated miniaturized batteries with energy densities exceeding 300 Wh/kg, demonstrating significant advancements in battery technology for wearable applications.

Increasing Consumer Awareness of Health and Wellness

The growing consumer awareness of health and wellness is a key driver for the Batteries for Skin Patches Market, as individuals increasingly seek proactive solutions for personal health monitoring. The rise in fitness trends, coupled with heightened health consciousness, has spurred demand for wearable devices like skin patches that track metrics such as heart rate, hydration, and sleep patterns. These devices rely on efficient, long-lasting batteries to ensure continuous operation, making battery performance a critical factor in their adoption.

Consumers are drawn to non-invasive, user-friendly solutions that integrate seamlessly into daily life, driving the need for batteries that are lightweight, flexible, and capable of supporting advanced sensors and wireless connectivity. The popularity of fitness and sports applications, particularly among younger demographics, has further amplified the demand for skin patches, with batteries playing a central role in enabling real-time performance feedback and data analytics.

As consumers prioritize preventive healthcare and personalized wellness, the Batteries for Skin Patches Market is benefiting from increased investments in battery technologies that enhance device functionality and user experience, positioning it for sustained growth.

A 2024 survey by the World Economic Forum found that 68% of global consumers aged 18–35 use wearable devices for health and fitness tracking, with 55% preferring devices powered by flexible, rechargeable batteries. The global wearable fitness device market, including skin patches, saw a 25% increase in sales from 2022 to 2024, reflecting strong consumer demand.

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Key Market Challenges

Technological Constraints in Miniaturization and Energy Density

One of the foremost challenges facing the Batteries for Skin Patches Market is the ongoing struggle to balance miniaturization with sufficient energy density. As the demand for smaller, thinner, and more flexible wearable skin patches increases, battery manufacturers are under significant pressure to develop compact power sources that do not compromise on performance, safety, or lifespan. This is particularly critical in the healthcare sector, where patches are used for continuous patient monitoring, diagnostic applications, and drug delivery, all of which require uninterrupted and reliable energy output over extended periods. The need for batteries that conform to the curvature of the human body while maintaining functional stability further complicates the engineering process.

Developing ultra-thin, flexible batteries with adequate capacity and durability is a significant research and development hurdle. Traditional lithium-ion batteries, while highly energy-dense, are typically rigid and unsuitable for flexible or stretchable electronics. On the other hand, newer battery chemistries, such as zinc-based and printed batteries, offer flexibility but often suffer from limitations in energy density and cycle life. These constraints force manufacturers into a technological trade-off between flexibility, energy output, and longevity.

Additionally, the integration of such batteries into skin-adherable patches requires the materials used in the battery to be both biocompatible and safe for prolonged contact with human skin. Any compromise in battery integrity could lead to leakage or skin irritation, which is unacceptable in clinical and consumer settings. Regulatory compliance for medical-grade materials adds another layer of complexity, slowing down innovation timelines and increasing development costs.

Moreover, the challenge is compounded by the requirement for seamless wireless connectivity, real-time data transmission, and multifunctional sensing capabilities embedded within the same patch. These functionalities further increase the energy burden on the battery. As a result, developers are caught in a continuous loop of attempting to reduce size while expanding energy performance—an engineering dilemma that remains unresolved at scale.

Without significant breakthroughs in material science and battery chemistry, achieving the optimal balance of size, safety, and performance will remain a barrier to mass commercialization. This technological bottleneck not only limits the adoption of advanced skin patch applications but also delays the entry of smaller players into the market due to high entry barriers in terms of research expenditure and intellectual property development. Therefore, unless consistent investment in research and collaboration across battery technology and medical device industries is accelerated, this constraint is expected to persist as a major hurdle in the growth of the Batteries for Skin Patches Market.

Stringent Regulatory Framework and Product Certification Delays

Another critical challenge impeding the growth of the Batteries for Skin Patches Market is the complexity and rigidity of the regulatory landscape surrounding battery components used in medical and consumer-grade wearable devices. Because skin patches are often in direct contact with the human body and are increasingly used for health monitoring and therapeutic purposes, the batteries powering these patches are subject to strict scrutiny from regulatory bodies such as the United States Food and Drug Administration, the European Medicines Agency, and other national health authorities.

To obtain approval, battery-integrated patches must meet rigorous safety, quality, and biocompatibility standards. These include toxicity assessments, thermal and electrical safety validations, and skin irritation tests. Additionally, manufacturers must conduct long-term reliability testing to ensure the batteries remain functional and safe under various environmental and usage conditions. These regulatory requirements are critical for patient safety but can result in prolonged product development cycles, delayed market entry, and elevated compliance costs.

Even after passing all necessary tests, the process of obtaining certifications, such as the CE Mark for Europe or the Premarket Approval for the United States, can be time-consuming and unpredictable. This uncertainty hampers the ability of companies to forecast product launches, scale manufacturing operations, or secure investments confidently. Furthermore, differences in regulatory standards between regions mean that manufacturers must often tailor battery designs and documentation for each target market, thereby increasing complexity and cost.

For emerging enterprises and startups, navigating these regulatory frameworks can be especially burdensome. Without established regulatory experience, in-house compliance teams, or access to expert consultation, smaller firms may find it financially unviable to meet all certification prerequisites. As a result, innovation is disproportionately concentrated among a limited number of large players who can afford extended approval timelines and absorb the cost of regulatory compliance.

Moreover, the increasing integration of connectivity features such as Bluetooth or near-field communication in skin patches introduces new regulatory requirements pertaining to electromagnetic safety and cybersecurity, adding another layer of compliance challenges. For instance, if a battery malfunction causes an interruption in wireless health data transmission, it could have serious medical implications, leading to stricter scrutiny of battery reliability and performance standards.

The regulatory bottleneck not only restricts time-to-market efficiency but also dissuades potential partnerships and collaborations, especially in international markets. Until there is a harmonized global regulatory framework or more streamlined approval processes tailored to wearable battery technologies, manufacturers will continue to face operational and strategic constraints. These persistent hurdles may significantly impede the broader adoption of skin patches, thereby limiting the growth potential of the Batteries for Skin Patches Market.

Key Market Trends

Shift Toward Flexible and Biocompatible Battery Materials

A significant trend emerging in the Batteries for Skin Patches Market is the transition toward the use of flexible and biocompatible battery materials. As the application of wearable skin patches expands into healthcare, fitness, and cosmetic domains, there is a growing emphasis on comfort, safety, and adaptability to the human body. This has led to a surge in research and development focused on battery chemistries and structures that can bend, stretch, and conform without losing performance integrity or posing health risks.

Traditional rigid batteries are no longer sufficient to meet the functional and ergonomic requirements of next-generation skin patches. In response, industry stakeholders are increasingly turning to flexible thin-film lithium batteries, printed batteries, and zinc-based systems that can be integrated seamlessly into patch substrates. These battery types utilize materials such as flexible polymers, graphene-based electrodes, and solid-state electrolytes, which enhance structural flexibility while maintaining high energy density and safety

Additionally, manufacturers are paying close attention to biocompatibility. Batteries used in skin patches must operate safely in direct contact with human skin for extended periods. This has pushed developers to explore non-toxic materials, leakage-proof designs, and encapsulation techniques that prevent chemical exposure while ensuring consistent performance. Advances in medical-grade packaging and barrier layers are further enhancing the reliability of these batteries.

This trend is also being supported by collaborations between battery innovators, medical device manufacturers, and academic research institutions. These partnerships are accelerating the commercial viability of new materials and technologies by combining technical expertise with real-world use case validation.

As more companies embrace the need for flexible and skin-safe battery solutions, the market is witnessing the launch of battery products specifically tailored for medical and consumer skin patch applications. These innovations are not only setting new benchmarks for performance and safety but also reshaping product development strategies across the industry. Therefore, the shift toward flexible and biocompatible materials is expected to remain a central trend, influencing investment priorities and competitive differentiation in the Batteries for Skin Patches Market over the coming years.

Integration of Smart Features and Wireless Connectivity

Another prominent trend influencing the Batteries for Skin Patches Market is the increasing integration of smart features and wireless connectivity within wearable patch devices. As end users demand more intelligent, real-time, and connected healthcare solutions, skin patches are evolving beyond simple monitoring tools into comprehensive digital health platforms. This transformation is driving the need for batteries that can reliably power advanced functionalities without compromising the patch's compact form or wearability.

Skin patches are now being designed with built-in sensors, microprocessors, data storage units, and wireless communication modules, including Bluetooth, near-field communication, and even fifth-generation network compatibility. These features enable continuous physiological data tracking, such as heart rate, temperature, glucose levels, and hydration status, which can be transmitted in real time to mobile applications, cloud servers, or healthcare professionals. Powering these components requires energy-efficient batteries capable of handling variable loads and prolonged operation.

This shift toward smart connectivity is placing new performance demands on batteries. Developers are focusing on enhancing energy density, reducing internal resistance, and optimizing power management systems to ensure long-lasting performance even under continuous data transmission. Some companies are exploring hybrid power solutions that combine batteries with energy harvesting technologies such as thermoelectric generators or solar cells to supplement power requirements and extend device lifespan.

Additionally, the trend of wireless charging for wearable devices is gaining momentum. Wireless recharging options, including inductive and resonant charging methods, are being explored to eliminate the need for patch removal and battery replacement, thereby improving convenience for users and reducing medical waste

The integration of smart features is not limited to healthcare alone. Cosmetic and skincare patches are also being developed with sensors that track skin condition, pH levels, and hydration, offering personalized product recommendations and data insights to consumers. All these innovations rely on highly dependable, miniaturized batteries.

As digital health continues to grow, the synergy between smart technology and battery innovation will become increasingly important. The success of this trend will depend on the battery sector’s ability to provide scalable, safe, and energy-efficient solutions. Consequently, the integration of smart features and wireless connectivity is poised to be a long-term, transformative trend in the Batteries for Skin Patches Market.

Growing Emphasis on Sustainable and Eco-Friendly Battery Solutions

Sustainability is becoming a critical consideration in the Batteries for Skin Patches Market, prompting a rising trend toward the development of environmentally friendly and recyclable battery technologies. As skin patches are frequently used in disposable or short-term applications, especially in clinical diagnostics and cosmetic treatments, the cumulative environmental impact of discarded batteries is gaining attention from regulators, manufacturers, and environmentally conscious consumers.

The demand for sustainable battery solutions is encouraging companies to explore alternatives to traditional lithium-based systems, which often involve the use of rare metals, toxic electrolytes, and non-biodegradable components. Researchers are investigating organic battery chemistries, bio-based materials, and water-based electrolytes that can minimize environmental harm while maintaining acceptable performance standards. Innovations in zinc-air and paper-based batteries are examples of sustainable alternatives gaining traction in this niche segment.

Additionally, battery manufacturers are working on integrating recycling and end-of-life management solutions into the product lifecycle. Designing batteries for disassembly, recovery of valuable materials, and safe disposal is becoming an integral part of product engineering. Some companies are partnering with medical waste management firms to establish circular solutions for patch batteries, particularly for use in hospitals and homecare environments.

Regulatory pressure is also contributing to this trend. Environmental standards and extended producer responsibility regulations in various countries are compelling manufacturers to reduce the ecological footprint of their products. This is creating incentives to adopt cleaner production methods, eliminate hazardous substances, and improve the overall recyclability of battery components.

Moreover, the consumer market is showing growing preference for sustainable products, especially among younger and health-conscious demographics. Companies that integrate eco-friendly battery options into their skin patches are more likely to benefit from positive brand perception and competitive differentiation.

Segmental Insights

Battery Type Insights

In 2024, the non-rechargeable batteries segment dominated the Batteries for Skin Patches Market and is expected to maintain its dominance during the forecast period. This dominance can be attributed to the widespread adoption of disposable skin patches across various applications, particularly in the healthcare and cosmetic sectors. Non-rechargeable batteries are preferred for single-use and short-term wearables such as diagnostic and drug delivery patches, where convenience, cost-effectiveness, and ease of disposal are essential. These batteries offer a stable and reliable energy source, which is particularly critical for medical-grade applications that demand uninterrupted functionality during the monitoring or treatment period.

Additionally, non-rechargeable batteries typically have a lower manufacturing cost and do not require integration of complex recharging mechanisms, making them an ideal choice for thin, lightweight, and flexible skin patches. They are also easier to integrate into compact device designs due to their simpler structure and reduced electronic requirements. Furthermore, the increasing use of skin patches in remote patient monitoring, especially for chronic disease management and post-operative care, has accelerated the demand for single-use solutions powered by non-rechargeable batteries.

The segment is further supported by advancements in battery chemistry, such as silver oxide and zinc-air batteries, which provide high energy density and extended shelf life while ensuring biocompatibility and safety for skin contact. Although rechargeable batteries are gaining attention for reusable and multifunctional skin patches, their integration often requires additional components for energy management, which can increase the device’s size, weight, and complexity.

As a result, many manufacturers continue to favor non-rechargeable options to ensure product affordability, regulatory compliance, and user convenience. Consequently, given their established role in the current product landscape and ongoing innovation in materials and efficiency, the non-rechargeable batteries segment is expected to retain its leading position in the Batteries for Skin Patches Market throughout the forecast period.

Voltage Range Insights

In 2024, the 1.5V to 3V segment dominated the Batteries for Skin Patches Market and is anticipated to maintain its dominance throughout the forecast period. This voltage range offers an optimal balance between power output and safety, making it highly suitable for a wide variety of skin patch applications including health monitoring, drug delivery, and cosmetic usage. Batteries within the 1.5V to 3V range provide sufficient energy to power microcontrollers, sensors, and wireless communication modules embedded in wearable patches without compromising on size, weight, or biocompatibility.

Their ability to deliver stable performance over extended periods, while maintaining a compact form factor, aligns with the growing consumer and clinical demand for lightweight and comfortable skin-adherable devices. Furthermore, this voltage range is commonly supported by most standard battery chemistries such as zinc-air, silver oxide, and lithium manganese dioxide, which are widely used in the manufacturing of non-rechargeable and thin-film batteries tailored for medical-grade and consumer applications.

The widespread compatibility of these batteries with various electronic components and platforms enhances their integration capabilities, thereby strengthening their dominance in the market. Additionally, the 1.5V to 3V segment benefits from established supply chains, mature production technologies, and cost-effective manufacturing processes, all of which contribute to greater scalability and affordability. With the increasing adoption of wearable health technologies and the expansion of remote patient monitoring systems, the demand for reliable power solutions within this voltage range is expected to grow steadily.

Although segments such as above 3V are gaining relevance for more complex, multifunctional, or longer-duration devices, they often require more robust safety measures and larger battery sizes, which may not align with the miniaturization goals of most skin patch designs. As a result, the 1.5V to 3V segment is projected to remain the preferred voltage range, reinforcing its leading position in the Batteries for Skin Patches Market during the forecast period.

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Regional Insights

Largest Region

In 2024, North America dominated the Batteries for Skin Patches Market and is expected to maintain its dominance throughout the forecast period. This regional leadership is primarily driven by the high adoption rate of advanced wearable healthcare technologies, robust investments in medical research and development, and the presence of leading battery and medical device manufacturers. The United States, in particular, has witnessed significant growth in the use of skin patches for chronic disease monitoring, fitness tracking, and remote patient care, fueled by rising healthcare awareness and the increasing integration of digital health solutions into mainstream medical practice.

Additionally, strong support from regulatory bodies such as the United States Food and Drug Administration has facilitated the approval and commercialization of innovative skin patch products powered by compact and safe battery systems. North America also benefits from a highly developed infrastructure for healthcare services, insurance coverage, and consumer technology, which further accelerates the adoption of wearable devices across both clinical and consumer segments. The region’s emphasis on personalized medicine, coupled with rising demand for non-invasive and real-time health monitoring, has created a fertile environment for the proliferation of battery-powered skin patches.

Furthermore, the presence of established companies and start-ups focusing on flexible battery technologies, energy-efficient microelectronics, and biocompatible materials has contributed to rapid innovation and product availability. The market is also witnessing growing interest from the cosmetic and fitness industries, where skin patches are used for skincare diagnostics and athletic performance monitoring, adding to the overall battery demand.

While Asia Pacific and Europe are emerging as promising markets due to their expanding healthcare infrastructure and rising technology adoption, they still face challenges related to regulatory harmonization and market penetration. As a result, North America, with its strong technological foundation, supportive ecosystem, and high consumer acceptance, is expected to continue leading the Batteries for Skin Patches Market during the forecast period.

Emerging Region

In the Batteries for Skin Patches Market, the Middle East and Africa emerged as the most prominent emerging region in 2024 and is expected to gradually strengthen its position during the forecast period. This emergence is primarily attributed to the increasing awareness of wearable healthcare technologies, growing demand for non-invasive monitoring solutions, and the gradual digital transformation of the healthcare sector across various countries in this region.

While the market in this region is currently in its nascent stage compared to more established markets such as North America, Europe, and Asia Pacific, it is witnessing a notable shift as governments and private healthcare providers begin to invest in innovative medical technologies. The rising burden of chronic diseases such as diabetes, hypertension, and cardiovascular conditions is driving interest in remote patient monitoring tools, including skin patches powered by compact and safe batteries. Additionally, the expansion of mobile connectivity, improving healthcare access, and increasing investment in telemedicine and homecare infrastructure are laying the groundwork for future adoption of wearable medical devices.

The presence of a young, tech-aware population and a growing middle-income demographic is further fueling interest in health and wellness products, including fitness and cosmetic skin patches that rely on reliable battery technologies. Although regulatory frameworks and manufacturing capabilities are still developing, international medical device and battery manufacturers are beginning to explore partnerships and distribution networks within this region to tap into its long-term potential.

Moreover, international health organizations and non-governmental bodies are increasingly supporting healthcare innovation initiatives, which may accelerate market readiness. Given these developments, the Middle East and Africa is regarded as an emerging region in the Batteries for Skin Patches Market, with significant untapped potential that could be realized through strategic investment, regulatory support, and increased public-private collaboration in the coming years.

Recent Development

• In January 2024, Blue Spark Technologies launched the VitalTraq™ platform, an advanced wearable system designed to enhance remote patient monitoring. This innovative platform integrates multiple sensors to continuously track vital signs, including heart rate, respiratory rate, and temperature. Notably, it features contactless Remote Photoplethysmography (rPPG) technology, enabling non-invasive data collection. VitalTraq™ represents a significant advancement in digital health, offering clinicians real-time, clinical-grade insights for proactive patient care and improved outcomes in both hospital and home care environments.
• In June 2024, Blue Spark Technologies’ TempTraq patch was utilized in clinical oncology trials to monitor early signs of fever in cancer patients. This initiative aimed to enhance infection detection during critical chemotherapy and transplant procedures, where early intervention is vital. The wearable patch continuously tracks body temperature, enabling healthcare providers to respond promptly to febrile episodes. Its application in oncology underscores TempTraq’s potential to improve patient safety, support clinical decision-making, and reduce complications related to delayed infection management.
• In March 2025, Blue Spark Technologies completed the sale of the majority of its operating assets to BST Technology Acquisition, Inc., a company supported by investment firm SunBridge Partners. This strategic acquisition is expected to enhance BST’s position in the wearable medical technology space by leveraging Blue Spark’s innovative product portfolio and intellectual property. The transaction marks a significant transition for Blue Spark Technologies, positioning the acquiring firm to accelerate growth and expand its presence in the remote health monitoring industry.
• In early 2025, Panasonic commenced limited production of its ultra-thin lithium-ion battery, just 0.55 mm thick. Engineered for flexibility and twist resistance, the battery retains performance even when bent around a 25 mm radius or twisted by 25 degrees. With capacities reaching up to 60 mAh, it is ideal for compact, flexible applications such as smart cards, wearable devices, and skin-patch medical electronics. This innovation marks a significant step in Panasonic’s focus on advanced, lightweight battery solutions.

Key Market Players

• Cymbet Corporation
• Blue Spark Technologies, Inc.
• Enfucell Oy
• Ultralife Corporation
• Panasonic Corporation
• Murata Manufacturing Co., Ltd.
• Renata SA (a subsidiary of The Swatch Group
• Samsung SDI Co., Ltd.
• Imprint Energy, Inc.
• VARTA AG

Report Scope:

In this report, the Global Batteries for Skin Patches Market has been segmented into the following categories, in addition to the industry trends which have also been detailed below:

•  Batteries for Skin Patches Market, By Battery Type:

o   Rechargeable Batteries

o   Non-Rechargeable Batteries

• Batteries for Skin Patches Market, By Voltage Range:

o   Below 1.5V

o   1.5V to 3V

o   Above 3V

• Batteries for Skin Patches Market, By End-User:

o   Hospitals and Clinics

o   Homecare Settings

o   Research and Development Centers

• Batteries for Skin Patches Market, By Region:

o   North America

§  United States

§  Canada

§  Mexico

o   Europe

§  Germany

§  France

§  United Kingdom

§  Italy

§  Spain

o   South America

§  Brazil

§  Argentina

§  Colombia

o   Asia-Pacific

§  China

§  India

§  Japan

§  South Korea

§  Australia

o   Middle East & Africa

§  Saudi Arabia

§  UAE

§  South Africa

Competitive Landscape

Company Profiles: Detailed analysis of the major companies present in the Global Batteries for Skin Patches Market.

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