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The Global Electronic Skin Patches Market 2026-2036

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    Report

  • 387 Pages
  • July 2025
  • Region: Global
  • Future Markets, Inc
  • ID: 5309971

The global wearable electronic skin patches market is experiencing major growth, driven by revolutionary advances in flexible electronics, artificial intelligence integration, and an increasing demand for continuous health monitoring solutions. This  growth trajectory reflects the technology's transition from experimental devices to mainstream healthcare solutions addressing critical global health challenges.  The market expansion is fuelled by multiple converging factors, including the aging global population, rising prevalence of chronic diseases, and increasing healthcare costs that demand remote monitoring solutions.

The diabetes management segment holds a dominant presence in the market, with electronic skin patches offering continuous glucose monitoring (CGM) and insulin patch pumps that sense excess glucose in sweat and automatically administer drugs. This application alone represents the largest single market segment, reflecting the urgent need for non-invasive diabetes management solutions.

The cardiovascular monitor segment is expected to grow at the fastest rate during the forecast period due to its thin, stretchable, and flexible properties that enable continuous monitoring of heart rate, blood pressure, and other essential vital signs. This growth is supported by increasing awareness of cardiovascular diseases and the need for early detection systems. The integration of artificial intelligence and machine learning algorithms is transforming electronic skin patches from simple monitoring devices into predictive healthcare platforms. These advanced systems can analyze patterns in physiological data to provide early warning systems for medical emergencies, optimize treatment protocols, and enable personalized medicine approaches. The convergence with Internet of Medical Things (IoMT) platforms is creating comprehensive health ecosystems that connect patients, healthcare providers, and medical institutions in real-time.

The future landscape promises even more revolutionary applications as the technology matures. Emerging areas include mental health monitoring through stress biomarkers, environmental exposure assessment, and integration with augmented reality systems for enhanced user experiences. The electrochemical sensors segment accounts for the largest market share of 40.9% in 2023, valued for their accuracy, reliability, and ability to deliver personalized health insights.

The market faces challenges including data privacy concerns, regulatory compliance requirements, and the need for standardization across platforms. However, these obstacles are being addressed through improved encryption technologies, streamlined regulatory pathways, and industry collaboration on technical standards. Looking ahead, the electronic skin patches market is positioned for sustained growth, with innovations in biointegrated materials, energy harvesting systems, and AI-powered analytics driving the next wave of market expansion. The technology's potential to transform healthcare delivery from reactive treatment to proactive wellness management represents a fundamental shift that will define the future of personalized medicine.

The Global Wearable Electronic Skin Patches Market 2026-2036 provides exhaustive analysis of the wearable electronic skin patches industry, providing critical insights into technological innovations, market dynamics, competitive landscapes, and strategic opportunities spanning the forecast period from 2026 to 2036. As healthcare systems worldwide transition toward preventive care models and remote patient monitoring solutions, wearable electronic skin patches emerge as transformative technologies capable of continuous, non-invasive health monitoring across diverse applications. The market evolution from rigid electronics to biointegrated systems represents a paradigm shift that enables seamless integration with human physiology, opening unprecedented opportunities for personalized medicine, chronic disease management, and real-time health analytics.

This authoritative report examines the complete wearable electronic skin patches ecosystem, from foundational technologies including stretchable electronics, nanomaterials, and energy harvesting systems to comprehensive application analysis across healthcare monitoring, drug delivery, cosmetic applications, and industrial safety solutions. The analysis encompasses detailed technology readiness assessments, manufacturing scalability roadmaps, regulatory compliance frameworks, and market penetration strategies that illuminate pathways toward mainstream commercial adoption.

Report contents include: 

  • Comprehensive analysis of the transformation from rigid to biointegrated electronics, convergence revolution encompassing AI, IoT, and flexible electronics, 2025 market landscape assessment, and technology readiness evaluation across TRL 1-9 applications
  • Advanced Technologies and Component Integration: In-depth examination of stretchable and flexible electronics architecture including serpentine and kirigami design principles, liquid metal interconnects, organic thin-film transistors, and printed electronics manufacturing processes
  • Artificial Intelligence and Data Analytics Integration: Detailed analysis of edge AI processing capabilities, machine learning algorithms for pattern recognition, predictive analytics for early disease detection, digital biomarkers development, data security protocols, and IoMT cloud integration strategies
  • Comprehensive Market Applications Analysis: AGranular assessment of 15 major application segments including temperature and respiratory monitoring, continuous glucose monitoring, cardiovascular health platforms, pregnancy and newborn monitoring, hydration sensors, sweat analysis systems, drug delivery platforms, femtech devices, cosmetic applications, smart wound care, fitness tracking, sleep monitoring, and emerging healthcare applications
  • Manufacturing and Scalability Roadmap: Extensive coverage of roll-to-roll manufacturing processes, additive manufacturing integration, quality control protocols, cost reduction strategies through 206, and supply chain resilience development
  • Power Management and Energy Systems: Advanced analysis of energy harvesting technologies including triboelectric nanogenerators, photovoltaic integration, thermoelectric systems, wireless power transfer, battery technologies, and machine learning optimization
  • Global Market Size and Regional Analysis: Comprehensive market forecasts by product segment and geographic region
  • Technology Roadmap and Future Outlook: Strategic analysis of short-term manufacturing scale development (2026-2028), medium-term AI integration expansion (2029-2032), and long-term biointegration advancement (2033-2035)
  • Investment Landscape and Funding Analysis: Detailed assessment of venture capital trends, strategic partnerships, mergers and acquisitions activity, and IPO pipeline developments
  • Regulatory Framework Evolution: Comprehensive analysis of FDA 510(k) pathways, European CE marking requirements, international standards harmonization, data privacy compliance, and reimbursement strategies
  • Supply Chain Transformation: In-depth examination of manufacturing challenges, component sourcing strategies, localization initiatives, and sustainability integration
  • Emerging Applications Beyond Healthcare: Analysis of defense applications, agricultural monitoring, sports performance optimization, industrial safety solutions, and environmental sensing platforms

This report features comprehensive profiles of 174 leading companies shaping the wearable electronic skin patches industry including detailed analysis of their technology platforms, product portfolios, commercial strategies, funding status, regulatory approvals, and competitive positioning within the rapidly expanding wearable electronic skin patches marketplace driving the future of connected healthcare and personalized medicine solutions.



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Table of Contents

1 EXECUTIVE SUMMARY
1.1 Market Evolution: From Rigid to Biointegrated Electronics
1.2 The Convergence Revolution: AI, IoT, and Flexible Electronics
1.3 The wearable tech market in 2025
1.4 Wearable market leaders
1.5 From rigid to flexible and stretchable
1.6 Flexible and stretchable electronics in wearables
1.7 Organic and printed electronics
1.8 Market drivers and trends
1.9 Advances in wearable healthcare devices
1.10 Skin-based wearable devices
1.11 Technology Readiness Assessment (TRL 1-9) Across Applications
1.12 2025 Market Landscape
1.13 Competitive Dynamics and Market Consolidation Trends
1.14 Technology Roadmap 2026-2036: Key Inflection Points
1.15 Regulatory Landscape Evolution and FDA 510(k) Pathway Analysis
1.16 Supply Chain Transformation and Manufacturing Scale Challenges
1.17 Emerging Applications Beyond Healthcare: Defense, Agriculture, Sports
1.18 Sustainability and Circular Economy Integration
1.19 Innovations at CES 2024 and 2025
1.20 Investment funding and buy-outs 2022-2025

2 THE GLOBAL MARKET FOR ELECTRONIC SKIN PATCHES
2.1 Market drivers and AI-powered healthcare transformation
2.2 Current state of the art in electronic skin patches
2.3 Wearable medical device products and integration platforms
2.4 Applications of skin patches
2.4.1 Electronic skin sensors
2.4.2 Nanomaterials-based devices
2.4.2.1 Graphene and 2D materials integration
2.4.3 Conductive hydrogels for soft and flexible electronics
2.4.4 Advanced Materials and Substrate Technologies
2.4.4.1 Biocompatible polymer substrates (PDMS, polyimide, parylene)
2.4.4.2 Biodegradable and bioresorbable materials
2.4.4.3 Self-healing polymers and shape-memory alloys
2.4.4.4 Summary of advanced materials
2.5 Market challenges

3 ADVANCED TECHNOLOGIES AND COMPONENT INTEGRATION
3.1 Stretchable and Flexible Electronics Architecture
3.1.1 Serpentine and kirigami design principles
3.1.2 Liquid metal interconnects and conductive inks
3.1.3 Organic thin-film transistors (OTFTs)
3.1.4 Printed electronics manufacturing processes
3.2 Advanced Sensor Integration Technologies
3.2.1 Multi-modal sensing platforms
3.2.2 Nanowire and nanoparticle-based sensors
3.2.3 Enzyme-based biosensors and electrochemical arrays
3.2.4 Optical sensors: fluorescence, colorimetric, plasmonic
3.3 Artificial Intelligence and Data Analytics
3.3.1 Edge AI Processing for Real-Time Analysis
3.3.2 Machine Learning Algorithms for Pattern Recognition
3.3.3 Predictive Analytics and Early Disease Detection
3.3.4 Digital Biomarkers and Personalized Medicine
3.3.5 Data Security, Encryption, and Privacy Protection
3.3.6 Cloud Integration and IoMT (Internet of Medical Things)

4 MARKETS FOR ELECTRONIC SKIN PATCHES
4.1 Temperature and respiratory rate monitoring
4.1.1 Market overview
4.1.2 Applications
4.1.2.1 Fever detection and infectious disease screening
4.1.2.2 Post-operative patient monitoring
4.1.2.3 Chronic respiratory disease management (COPD, asthma)
4.1.2.4 Sleep apnea and breathing pattern analysis
4.1.2.5 Occupational health in extreme temperature environments
4.1.2.6 Pediatric and neonatal intensive care monitoring
4.1.2.7 Early warning systems for respiratory distress
4.1.2.8 Disease surveillance
4.1.3 Companies and products
4.2 Wearable and health monitoring and rehabilitation
4.2.1 Market overview
4.2.2 Applications
4.2.2.1 Post-stroke rehabilitation and motor function recovery
4.2.2.2 Physical therapy progress tracking and compliance monitoring
4.2.2.3 Gait analysis and movement disorder assessment
4.2.2.4 Muscle activation patterns during exercise therapy
4.2.2.5 Balance and fall risk assessment in elderly patients
4.2.2.6 Chronic pain management and activity correlation
4.2.2.7 Parkinson's disease tremor and mobility monitoring
4.2.2.8 Spinal cord injury rehabilitation tracking
4.2.2.9 Sports injury recovery and return-to-play protocols
4.2.3 Companies and products
4.3 Continuous glucose monitoring (CGM)
4.3.1 Market overview
4.3.2 Applications
4.3.2.1 Type 1 and Type 2 diabetes management
4.3.2.2 Prediabetes screening and prevention programs
4.3.2.3 Gestational diabetes monitoring
4.3.2.4 Intensive care unit glucose management
4.3.2.5 Artificial pancreas system integration
4.3.2.6 Hypoglycemia and hyperglycemia alert systems
4.3.2.7 Insulin dosing optimization algorithms
4.3.2.8 Dietary impact assessment and nutritional guidance
4.3.2.9 Exercise and glucose correlation analysis
4.3.2.10 Pediatric diabetes management with parental monitoring
4.3.3 Minimally-invasive CGM sensors
4.3.3.1 Technologies
4.3.3.2 Advanced enzyme-based and optical sensing technologies
4.3.4 Non-invasive CGM sensors
4.3.4.1 Commercial devices
4.3.4.2 Companies and products
4.4 Cardiovascular monitoring
4.4.1 Market overview
4.4.2 Applications
4.4.3 ECG sensors
4.4.3.1 Companies and products
4.4.4 PPG sensors
4.4.4.1 Companies and products
4.5 Pregnancy and newborn monitoring
4.5.1 Market overview
4.5.2 Applications
4.5.2.1 Fetal heart rate monitoring during pregnancy
4.5.2.2 Uterine contraction pattern analysis during labor
4.5.2.3 Maternal vital signs monitoring during delivery
4.5.2.4 Postpartum recovery and complication detection
4.5.2.5 Neonatal intensive care unit (NICU) monitoring
4.5.2.6 Premature infant apnea and bradycardia detection
4.5.2.7 Infant sleep position and SIDS risk reduction
4.5.2.8 Breastfeeding success monitoring
4.5.2.9 Maternal depression screening through physiological markers
4.5.2.10 High-risk pregnancy remote monitoring
4.5.3 Companies and products
4.6 Hydration sensors and electrolyte monitoring
4.6.1 Market overview
4.6.2 Applications
4.6.2.1 Athletic performance optimization and endurance training
4.6.2.2 Heat stroke prevention in outdoor workers
4.6.2.3 Military personnel hydration management
4.6.2.4 Elderly dehydration prevention and monitoring
4.6.2.5 Kidney disease patient fluid balance management
4.6.2.6 Post-surgical fluid status monitoring
4.6.2.7 Intensive care unit electrolyte balance tracking
4.6.2.8 Pediatric dehydration assessment
4.6.2.9 Marathon and endurance event safety monitoring
4.6.2.10 Occupational safety in high-temperature environments
4.6.3 Companies and products
4.7 Wearable sweat sensors (medical, sports, and wellness)
4.7.1 Market overview
4.7.2 Applications
4.7.2.1 Stress hormone (cortisol) monitoring for mental health
4.7.2.2 Lactate measurement for athletic training optimization
4.7.2.3 Sodium and chloride monitoring for cystic fibrosis patients
4.7.2.4 Glucose monitoring through sweat analysis
4.7.2.5 Drug concentration monitoring for therapeutic compliance
4.7.2.6 Alcohol detection for sobriety monitoring
4.7.2.7 Metabolic rate assessment during exercise
4.7.2.8 Inflammatory marker detection for disease monitoring
4.7.2.9 Nutritional deficiency screening through sweat biomarkers
4.7.2.10 Environmental toxin exposure assessment
4.7.3 Companies and products
4.8 Wearable drug delivery
4.8.1 Market overview
4.8.2 Applications
4.8.2.1 Transdermal insulin delivery for diabetes management
4.8.2.2 Pain medication delivery for chronic pain patients
4.8.2.3 Hormone replacement therapy administration
4.8.2.4 Nicotine delivery for smoking cessation programs
4.8.2.5 Anti-nausea medication for chemotherapy patients
4.8.2.6 Local anesthetic delivery for minor procedures
4.8.2.7 Migraine medication rapid delivery systems
4.8.2.8 Contraceptive hormone delivery
4.8.2.9 Anti-inflammatory drug delivery for arthritis
4.8.2.10 Pediatric medication delivery with dose control
4.8.3 Companies and products
4.9 Femtech devices
4.9.1 Market overview
4.9.2 Applications
4.9.2.1 Menstrual cycle tracking and fertility monitoring
4.9.2.2 Ovulation prediction and family planning
4.9.2.3 Pregnancy detection and early monitoring
4.9.2.4 Menopause symptom tracking and hormone monitoring
4.9.2.5 Polycystic ovary syndrome (PCOS) management
4.9.2.6 Endometriosis pain pattern analysis
4.9.2.7 Contraceptive effectiveness monitoring
4.9.2.8 Postpartum recovery and breastfeeding support
4.9.2.9 Sexual health and libido correlation tracking
4.9.3 Companies and products
4.10 Cosmetic skin patches
4.10.1 Market overview
4.10.2 Applications
4.10.2.1 Wrinkle reduction through targeted treatment delivery
4.10.2.2 Skin hydration monitoring and moisturizer optimization
4.10.2.3 UV exposure tracking and sun damage prevention
4.10.2.4 Acne treatment with real-time pH monitoring
4.10.2.5 Collagen stimulation through microcurrent therapy
4.10.2.6 Dark spot and hyperpigmentation treatment
4.10.2.7 Anti-aging serum delivery with penetration enhancement
4.10.2.8 Skin elasticity and firmness monitoring
4.10.3 Companies and products
4.11 Smart woundcare patches
4.11.1 Market overview
4.11.2 Applications
4.11.2.1 Chronic wound healing progress monitoring
4.11.2.2 Diabetic foot ulcer management and prevention
4.11.2.3 Post-surgical incision monitoring
4.11.2.4 Burn wound assessment and treatment optimization
4.11.2.5 Pressure ulcer prevention in bedridden patients
4.11.2.6 Infection detection through bacterial biomarker sensing
4.11.2.7 Wound oxygenation and perfusion monitoring
4.11.2.8 Antimicrobial treatment effectiveness tracking
4.11.2.9 Tissue regeneration progress assessment
4.11.2.10 Remote wound care for homebound patie
4.11.3 Companies and products
4.12 Smart diapers and infant monitoring systems
4.12.1 Market overview
4.12.2 Applications
4.12.2.1 Urination frequency and volume tracking
4.12.2.2 Bowel movement consistency and frequency monitoring
4.12.2.3 Diaper rash prevention through moisture detection
4.12.2.4 Infant sleep pattern and movement tracking
4.12.2.5 Dehydration early warning through urine concentration
4.12.2.6 Urinary tract infection detection in infants
4.12.2.7 Toilet training progress monitoring
4.12.2.8 Nocturnal enuresis (bedwetting) management
4.12.2.9 Developmental milestone tracking through movement patterns
4.12.2.10 Caregiver alert systems for immediate attention needs
4.12.3 Companies and products
4.13 Fitness trackers
4.13.1 Market overview
4.13.2 Applications
4.13.2.1 Heart rate variability training and recovery optimization
4.13.2.2 VO2 max estimation and cardiovascular fitness tracking
4.13.2.3 Muscle fatigue detection during resistance training
4.13.2.4 Form analysis and technique improvement in sports
4.13.2.5 Calorie expenditure accurate measurement
4.13.2.6 Training load optimization to prevent overtraining
4.13.2.7 Competition performance analysis and strategy development
4.13.2.8 Injury risk assessment through biomechanical analysis
4.13.2.9 Altitude training adaptation monitoring
4.13.2.10 Team sports coordination and formation analysis
4.13.3 Companies and products
4.14 Sleep trackers
4.14.1 Market overview
4.14.2 Applications
4.14.2.1 Sleep stage analysis (REM, deep, light sleep)
4.14.2.2 Sleep apnea screening and severity assessment
4.14.2.3 Insomnia pattern identification and treatment monitoring
4.14.2.4 Shift work sleep disorder management
4.14.2.5 Jet lag recovery optimization
4.14.2.6 Sleep medication effectiveness tracking
4.14.2.7 Bedroom environment optimization recommendations
4.14.2.8 Circadian rhythm disorder diagnosis and treatment
4.14.2.9 Sleep hygiene education and behaviour modification
4.14.3 Companies and products
4.15 Emerging Healthcare Applications
4.15.1 Mental Health Monitoring: Stress, Anxiety, Depression Biomarkers
4.15.2 Neurological Monitoring: EEG, Epilepsy, and Brain-Computer Interfaces
4.15.3 Respiratory Monitoring and Chronic Disease Management
4.15.4 Skin Cancer Detection and Dermatological Applications
4.15.5 Industrial and Occupational Safety Applications
4.15.6 Worker Health Monitoring in Hazardous Environments
4.15.7 Heat Stress and Fatigue Detection
4.15.8 Chemical Exposure Assessment
4.15.9 Ergonomic Analysis and Injury Prevention

5 MANUFACTURING AND SCALABILITY ROADMAP
5.1 Roll-to-Roll (R2R) Manufacturing Processes
5.2 Additive Manufacturing and 3D Printing Integration
5.3 Quality Control and Standardization Protocols
5.4 Cost Reduction Strategies
5.5 Supply Chain Resilience and Localization Strategies

6 POWER MANAGEMENT AND ENERGY SYSTEMS
6.1 Power Management and Energy Harvesting Technologies
6.1.1 Triboelectric nanogenerators (TENGs)
6.1.2 Photovoltaic cells integration
6.1.3 Thermoelectric energy harvesting
6.1.4 Wireless power transfer and NFC charging
6.2 Battery Technologies and Energy Storage
6.3 Energy Optimization and Machine Learning Integration

7 GLOBAL MARKET SIZE
7.1 By product
7.2 By region
7.2.1 North America
7.2.2 Europe
7.2.3 Asia-Pacific
7.2.4 China

8 TECHNOLOGY ROADMAP AND FUTURE OUTLOOK 2026-2035
8.1 Short-term (2026-2028): Manufacturing Scale and Cost Reduction
8.2 Medium-term (2029-2032): AI Integration and Predictive Analytics
8.3 Long-term (2033-2035): Biointegration and Therapeutic Applications
8.4 Breakthrough Technologies on the Horizon
8.5 Societal Impact and Healthcare Transformation

9 WEARABLE ELECTRONIC SKIN PATCH COMPANY PROFILES (174 company profiles)10 ELECTRONIC SKIN PATCHES DEVELOPED IN ACADEMIA11 RESEARCH METHODOLOGY12 REFERENCES
LIST OF TABLES
Table 1. Types of wearable devices and applications
Table 2. Types of wearable devices and the data collected
Table 3. Main Wearable Device Companies by Shipment Volume, Market Share, and Year-Over-Year Growth, (million units)
Table 4. New wearable tech products in 2025
Table 5. Wearable market leaders by market segment
Table 6. Applications in printed, flexible and stretchable electronics, by advanced materials type and benefits thereof
Table 7. Market drivers and trends in wearable electronics
Table 8. Wearable electronics at CES 2004 and 2025
Table 9. Wearables Investment funding and buy-outs 2019-2022
Table 10. Market drivers for electronic skin patches
Table 11. Examples of wearable medical device products
Table 12. Wearable bio-signal monitoring devices
Table 13. Biodegradable and bioresorbable materials
Table 14. Applications in flexible and stretchable health monitors, by advanced materials type and benefits thereof
Table 15. Market challenges in medical and healthcare sensors and wearables
Table 16. Printed electronics manufacturing processes
Table 17. Medical wearable companies applying products to temperate and respiratory monitoring and analysis
Table 18. Technologies for minimally-invasive and non-invasive glucose detection-advantages and disadvantages
Table 19. Commercial devices for non-invasive glucose monitoring not released or withdrawn from market
Table 20. Minimally-invasive and non-invasive glucose monitoring products
Table 21. Companies developing wearable swear sensors
Table 22. Wearable drug delivery companies and products
Table 23. Companies developing femtech wearable technology
Table 24. Companies and products, cosmetics and drug delivery patches
Table 25. Companies and products in smart wound care
Table 26. Companies developing smart diaper products
Table 27. Wearable sensors for sports performance
Table 28. Wearable sensor products for monitoring sport performance
Table 29. Example wearable sleep tracker products and prices
Table 30. Sleep monitoring products
Table 31. Roll-to-Roll (R2R) Manufacturing Processes
Table 32. Quality Control and Standardization Protocols
Table 33. Supply Chain Resilience and Localization Strategies
Table 34. Power Management and Energy Harvesting Technologies
Table 35. Global market for electronic skin patches 2017-2036, (millions of US dollars), by product
Table 36. Global market for electronic skin patches 2017-2036, (millions of US dollars), by region
Table 37. Electronic skin patches developed in academia

LIST OF FIGURES
Figure 1. Evolution of electronics
Figure 2. A) Evolution of wearable medical devices (B) Application of wearable devices in the healthcare and biomedical monitoring systems
Figure 3. Wove Band
Figure 4. Wearable graphene medical sensor
Figure 5. Stretchable transistor
Figure 6. Applications timeline for organic and printed electronics
Figure 7. Baby Monitor
Figure 8. Wearable health monitor incorporating graphene photodetectors
Figure 9. Classification of Healthcare Wearable Devices (HWDs)
Figure 10. Artificial skin prototype for gesture recognition
Figure 11. Technology Readiness Assessment (TRL 1-9) Across Applications
Figure 12. Technology Roadmap 2026-2036
Figure 13. Applications of wearable flexible sensors worn on various body parts
Figure 14. Connected human body and product examples
Figure 15. Smart e-skin system comprising health-monitoring sensors, displays, and ultra flexible PLEDs
Figure 16. Graphene medical patch
Figure 17. Graphene-based E-skin patch
Figure 18. Enfucell wearable temperature tag
Figure 19. TempTraQ wearable wireless thermometer
Figure 20. Companies and products in wearable health monitoring and rehabilitation devices and products
Figure 21. Technologies for minimally-invasive and non-invasive glucose detection
Figure 22. Schematic of non-invasive CGM sensor
Figure 23. Adhesive wearable CGM sensor
Figure 24. VitalPatch
Figure 25. Wearable ECG-textile
Figure 26. Wearable ECG recorder
Figure 27. Nexkin™
Figure 28. Bloomlife
Figure 29. Nanowire skin hydration patch
Figure 30. NIX sensors
Figure 31. Wearable sweat sensor
Figure 32. Wearable graphene sweat sensor
Figure 33. Gatorade's GX Sweat Patch
Figure 34. Sweat sensor incorporated into face mask
Figure 35. D-mine Pump
Figure 36. Brilliantly Warm
Figure 37. Ava Fertility tracker
Figure 38. S9 Pro breast pump
Figure 39. Tempdrop
Figure 40. My UV Patch
Figure 41. Overview layers of L'Oreal skin patch
Figure 42. Schematic of smart wound dressing
Figure 43. REPAIR electronic patch concept. Image courtesy of the University of Pittsburgh School of Medicine
Figure 44. ABENA Nova smart diaper
Figure 45. Wearable bio-fluid monitoring system for monitoring of hydration
Figure 46. Beddr SleepTuner
Figure 47. Global market for electronic skin patches 2017-2036, (millions of US dollars), by product
Figure 48. Global market for electronic skin patches 2017-2036, (millions of US dollars), by region
Figure 49. Sigi™ Insulin Management System
Figure 50. MIT and Amorepacific's chip-free skin sensor
Figure 51. Anpoly cellulose nanofiber hydrogel
Figure 52. MEDICELLU™
Figure 53. C-Stretch™
Figure 54. Biobeat patch and wristband
Figure 55. BioSticker™
Figure 56. Carewear LED light patches
Figure 57. BioSleeve®
Figure 58. In ear wearable sensor
Figure 59. Jewel Patch Wearable Cardioverter Defibrillator
Figure 60. EOPatch
Figure 61. Connected Hydration patch
Figure 62. Fleming Medical Ltd. wound dressing
Figure 63. FloPatch
Figure 64. CORE from Genteg AG
Figure 65. MYSA - 'Relax Shirt'
Figure 66. DRYODES™ electrode
Figure 67. Life Signals LP1250 Wireless Medical Biosensor
Figure 68. LifeSpan patch
Figure 69. Mawi Heart Patch
Figure 70. VitalPatch MD
Figure 71. Electroskin integration schematic
Figure 72. Neopenda neonatal device
Figure 73. Nix Biosensors patch
Figure 74. Nutromics’ wearable DNA sensor lab-on-a-patch
Figure 75. Point Fit Technology skin patch
Figure 76. Sylvee 1.0
Figure 77. Powered Clothing™
Figure 78. TAP device
Figure 79. Sorrel Medical’s wearable drug delivery devices
Figure 80. intelligent Care Belt
Figure 81. Feelzing Energy Patch
Figure 82. Ultrahuman wearable glucose monitor
Figure 83. Vaxxas patch

Companies Mentioned (Partial List)

A selection of companies mentioned in this report includes, but is not limited to:

  • 1drop
  • Abbott Laboratories
  • ABIORO
  • Afford SENS Corporation
  • Aidar Health
  • AMF Medical
  • Amorepacific Corporation
  • AMSU (Shenzhen) New Technology Co. Ltd.
  • Anpoly Inc.
  • AquilX Inc.
  • Bando Chemical Industries Ltd.
  • Bend Labs
  • Beneli AB
  • Biobeat Technologies Ltd.
  • Biofourmis Inc.
  • BioIntelliSense
  • Biolinq Inc.
  • Biorithm Pte Ltd.
  • BioSenseTek Corporation
  • BioSerenity SAS
  • Biotricity
  • Bittium Corporation
  • BloomerTech
  • Blue Spark Technologies Inc.
  • Bold Diagnostics
  • Bonbouton
  • Borsam Biomedical Instruments Co. Ltd.
  • BrainStem Biometrics Inc.
  • Brewer Science Inc.
  • CardiacSense
  • CareWear Corporation
  • Cari Health Inc.
  • Chronolife SAS
  • Cipher Skin
  • Cortrium APS
  • Cosinuss
  • Cue Health
  • Debiotech S.A.
  • Dexcom Inc.
  • DiaMonTech AG
  • dorsaVi Ltd.
  • Ectosense
  • Element Science Inc.
  • Embr Labs
  • Enfucell OY
  • Eccrine Systems Inc.
  • EOFlow Co Ltd.
  • Epicore Biosystems
  • Epi-Watch
  • Equivital
  • ERT (eResearchTechnology Inc.)
  • FeelIT
  • FinnAdvance
  • Fleming Medical
  • Flosonics Medical
  • Flow Bio
  • Fujita Medical Instruments
  • Gaugewear Inc.
  • GE Healthcare
  • Gentag Inc.
  • G-Tech Medical
  • GlySens Incorporated
  • Glucovation
  • GluSense
  • Grapheal
  • GraphWear Technologies
  • greenTEG AG
  • Healbe Corporation
  • Hivok Biotek Inc.
  • Holst Centre
  • IDUN Technologies AG
  • IDRO
  • Indigo Diabetes n.v.
  • Innovega Inc.
  • Insulet Corporation
  • IONIQ Skincare GmbH & Co. KG
  • iRhythm Technologies Inc.
  • Isansys Lifecare
  • i-SENS Inc.
  • Insulet
  • ivWatch LLC
  • iWEECARE Co. Ltd.
  • Kenzen Inc.
  • Know Labs
  • Kyocera Corporation
  • Laxmi Therapeutic Devices
  • Leaf Healthcare Inc.
  • Lief Therapeutics Inc.
  • LifePlus
  • LifeSignals Group Inc.
  • LifeSpan
  • Linxens
  • Liquid Wire Inc.
  • Lucid Audio LLC
  • MagArray Inc.
  • MAWI
  • MCK Tech Co. Ltd.
  • Medherant Ltd.
  • MediBioSense Ltd.
  • Medtronic
  • Medtrum Technologies
  • Metyos