The Global Market for Electronic Textiles, Skin Patches and Wearable Electronics, Batteries & Sensors 2022-2032

1              EXECUTIVE SUMMARY   31

• 1.1          The evolution of electronics        33
• 1.2          The wearables revolution             35
• 1.3          Wearable market leaders             39
• 1.4          From rigid to flexible and stretchable      39
• 1.5          Flexible and stretchable electronics in wearables               41
• 1.6          Stretchable artificial skin               44
• 1.7          Organic and printed electronics 44
• 1.8          Wearable electronics in the textiles industry        45
• 1.9          New conductive materials            47
• 1.10        Foldable smartphones and tablets            50
• 1.11        Entertainment  53
• 1.12        Growth in flexible and stretchable electronics market      54
• 1.13        Innovations at CES 2021 57
• 1.14        Innovations at CES 2022 57
• 1.15        Investment funding 2019-2022   59

2              WEARABLE ELECTRONICS             61

• 2.1          Market drivers and trends            61
• 2.2          Recent developments    64
• 2.3          Smartwatches   65
  • 2.3.1      Recent innovations         65
  • 2.3.2      Health monitoring           65
  • 2.3.3      Energy harvesting for powering smartwatches    66
  • 2.3.4      Main smart watch producers and products           66
• 2.4          Sports and fitness trackers           68
  • 2.4.1      Wearable devices            68
  • 2.4.2      Skin patches       68
  • 2.4.3      Products              70
• 2.5          Sleep trackers and wearable monitors    72
  • 2.5.1      Built in function in smart watches and fitness trackers     73
  • 2.5.2      Smart rings         73
  • 2.5.3      Headbands         74
  • 2.5.4      Patches 75
  • 2.5.5      Masks   75
• 2.6          Smart glasses and head-mounted displays (VR, AR, MR, vision loss and eye trackers)         76
  • 2.6.1      Products              76
  • 2.6.2      Virtual Reality (VR) devices          80
  • 2.6.3      Augmented (AR) headsets and smart glasses       81
  • 2.6.4      Mixed Reality (MR) smart glasses              82
• 2.7          Military wearables          83
• 2.8          Industrial and workplace monitoring       84
  • 2.8.1      Products              84
• 2.9          Global market size           85
  • 2.9.1      By product type, 2015-2032, billions USD              87
  • 2.9.2      Market share by product type    91
• 2.10        Market challenges           91

3              SKIN PATCHES   93

• 3.1          Market drivers  93
• 3.2          Current state of the art  96
  • 3.2.1      Wearable medical device products           97
  • 3.2.2      Temperature and respiratory rate monitoring     100
• 3.3          Wearable health monitoring and rehabilitation   101
  • 3.3.1      Companies and products              102
• 3.4          Electronic skin patches  107
  • 3.4.1      Applications       107
  • 3.4.2      Materials             109
    • 3.4.2.1   Nanomaterials-based devices     110
  • 3.4.3      Continuous glucose monitoring (CGM)   112
    • 3.4.3.1   Minimally-invasive CGM sensors               113
    • 3.4.3.2   Non-invasive CGM sensors          116
    • 3.4.3.3   Minimally-invasive and non-invasive glucose monitoring companies and products              118
  • 3.4.4      Cardiovascular   121
    • 3.4.4.1   ECG sensors       121
      • 3.4.4.1.1               Companies and products              122
    • 3.4.4.2   PPG sensors       124
    • 3.4.4.2.1               Companies and products              124
  • 3.4.5      Pregnancy and newborn monitoring        124
    • 3.4.5.1   Companies and products              124
  • 3.4.6      Wearable temperature monitoring          126
    • 3.4.6.1   Companies and products              127
  • 3.4.7      Hydration sensors           128
    • 3.4.7.1   Companies and products              128
  • 3.4.8      Wearable sweat sensors (medical and sports)     129
    • 3.4.8.1   Companies and products              131
• 3.5          Wearable drug delivery 132
  • 3.5.1      Companies and products              133
• 3.6          Cosmetics patches           134
  • 3.6.1      Companies and products              135
• 3.7          Smart footwear for health monitoring     136
  • 3.7.1      Companies and products              136
• 3.8          Smart contact lenses      137
  • 3.8.1      Companies and products              137
• 3.9          Smart woundcare            138
  • 3.9.1      Companies and products              140
• 3.10        Wearable exoskeletons 141
  • 3.10.1    Companies and products              141
• 3.11        Medical hearables           144
  • 3.11.1    Companies and products              144
• 3.12        Global market size           146
  • 3.12.1    By product type, 2015-2032, billions USD              146
  • 3.12.2    Market share, by product type   149
• 3.13        Market challenges           149

4              ELECTRONIC TEXTILES (E-TEXTILES)             151

• 4.1          Market drivers  152
• 4.2          Performance requirements for E-textiles               154
• 4.3          Growth prospects for electronic textiles 156
• 4.4          Materials and components          157
  • 4.4.1      Conductive and stretchable yarns             157
  • 4.4.2      Conductive polymers     158
    • 4.4.2.1   PDMS    159
    • 4.4.2.2   PEDOT: PSS         159
  • 4.4.3      Conductive coatings        161
  • 4.4.4      Conductive inks 161
  • 4.4.5      Nanomaterials  163
    • 4.4.5.1   Nanocoatings in smart textiles   165
    • 4.4.5.2   Graphene           168
    • 4.4.5.3   Nanofibers         170
    • 4.4.5.4   Carbon nanotubes           172
• 4.5          Phase change materials 174
  • 4.5.1      Temperature controlled fabrics  175
• 4.6          Smart clothing products 176
• 4.7          Electronic textile products           177
• 4.8          Temperature monitoring and regulation 178
  • 4.8.1      Heated clothing 179
  • 4.8.2      Heated gloves   180
  • 4.8.3      Heated insoles  181
  • 4.8.4      Heated jacket and clothing products        181
  • 4.8.5      Materials used in flexible heaters and applications            182
• 4.9          Stretchable E-fabrics       183
• 4.10        Wearable therapeutic products 184
• 4.11        Sports and fitness            184
• 4.12        Smart footwear 185
  • 4.12.1    Companies and products              186
• 4.13        Military 187
• 4.14        Flexible and wearable display advertising              188
• 4.15        Textile-based lighting     189
  • 4.15.1    OLEDs   189
• 4.16        Smart diapers    189
  • 4.16.1    Companies and products              189
• 4.17        Automotive        191
• 4.18        Global market size           191
  • 4.18.1    E-textiles investments and funding 2020-2021     192
  • 4.18.2    By product type, 2015-2032, billions USD              192
  • 4.18.3    Market share, by product type   195
• 4.19        Market challenges           195

5              BATTERIES IN E-TEXILES, SKIN PATCHES AND WEARABLE ELECTRONICS   197

• 5.1          Wearable batteries         197
• 5.2          Flexible batteries             199
  • 5.2.1      Technical specifications 201
    • 5.2.1.1   Approaches to flexibility                202
  • 5.2.2      Flexible and wearable Metal-sulfur batteries       204
  • 5.2.3      Flexible and wearable Metal-air batteries              205
  • 5.2.4      Flexible Lithium-ion Batteries     206
    • 5.2.4.1   Electrode designs             209
    • 5.2.4.2   Fiber-shaped Lithium-Ion batteries          212
    • 5.2.4.3   Stretchable lithium-ion batteries               213
    • 5.2.4.4   Origami and kirigami lithium-ion batteries            214
  • 5.2.5      Flexible Li/S batteries     215
    • 5.2.5.1   Components      216
    • 5.2.5.2   Carbon nanomaterials    216
  • 5.2.6      Flexible lithium-manganese dioxide (Li–MnO2) batteries 217
  • 5.2.7      Flexible zinc-based batteries       218
    • 5.2.7.1   Components      218
      • 5.2.7.1.1               Anodes 218
      • 5.2.7.1.2               Cathodes             219
    • 5.2.7.2   Challenges          219
    • 5.2.7.3   Flexible zinc-manganese dioxide (Zn–Mn) batteries          220
    • 5.2.7.4   Flexible silver–zinc (Ag–Zn) batteries       221
    • 5.2.7.5   Flexible Zn–Air batteries               221
    • 5.2.7.6   Flexible zinc-vanadium batteries               222
  • 5.2.8      Fiber-shaped batteries  223
    • 5.2.8.1   Carbon nanotubes           223
    • 5.2.8.2   Types    223
    • 5.2.8.3   Applications       225
    • 5.2.8.4   Challenges          225
  • 5.2.9      Transparent batteries    226
    • 5.2.9.1   Components      227
  • 5.2.10    Degradable batteries      228
    • 5.2.10.1                Components      229
  • 5.2.11    Flexible and stretchable supercapacitors               230
    • 5.2.11.1                Nanomaterials for electrodes     232
• 5.3          Printed batteries              234
  • 5.3.1      Technical specifications 234
    • 5.3.1.1   Components      235
    • 5.3.1.2   Design  237
    • 5.3.1.3   Key features      238
    • 5.3.1.4   Materials             238
    • 5.3.1.5   Printing techniques         239
    • 5.3.1.6   Applications       241
  • 5.3.2      Lithium-ion (LIB) printed batteries            241
  • 5.3.3      Zinc-based printed batteries       242
  • 5.3.4      3D Printed batteries       245
    • 5.3.4.1   3D Printing techniques for battery manufacturing             247
    • 5.3.4.2   Materials for 3D printed batteries            248
      • 5.3.4.2.1               Electrode materials         248
      • 5.3.4.2.2               Electrolyte Materials      249
  • 5.3.5      Printed supercapacitors 249
    • 5.3.5.1   Electrode materials         251
    • 5.3.5.2   Electrolytes        252
• 5.4          Energy sources for wearable sensors       257
• 5.5          Textile-based batteries 258
• 5.6          Energy harvesting            259
• 5.7          Powering E-textiles         262
• 5.8          Advantages and disadvantages of main battery types for E-textiles            263
• 5.9          Bio-batteries      263
• 5.10        Challenges for battery integration in smart textiles           264
• 5.11        Global market to 2032, by types and markets (revenues) 265

6              COMPANY PROFILES       267 (336 COMPANY PROFILES)

7              RESEARCH METHODOLOGY         520

8              REFERENCES       521

List of Tables

• Table 1. Types of wearable devices and applications.        36
• Table 2. Types of wearable devices and the data collected.            38
• Table 3. Wearable market leaders by market segment.   39
• Table 4. Applications in printed, flexible and stretchable electronics, by advanced materials type and benefits thereof.                42
• Table 5. Advanced materials for Printed, flexible and stretchable sensors and Electronics-Advantages and disadvantages.  48
• Table 6. Sheet resistance (RS) and transparency (T) values for transparent conductive oxides and alternative materials for transparent conductive electrodes (TCE).       49
• Table 7. Foldable smartphones and tablets, on or near market.   50
• Table 8. Wearable electronics at CES 2021.            57
• Table 9. Wearable electronics at CES 2022.            57
• Table 10. Wearables Investment funding 2019-2022.        59
• Table 11. Market drivers and trends in wearable electronics.        62
• Table 12. Wearable health monitors.       65
• Table 13. Main smart watch producers and products.      66
• Table 14. Wearable sensors for sports performance.        69
• Table 15. Wearable sensor products for monitoring sport performance.  70
• Table 16. Example wearable sleep tracker products and prices.    72
• Table 17. Smart ring products.    74
• Table 18. Sleep headband products.        74
• Table 19. Smart sleep mask products.     75
• Table 20. Smart glasses companies and products.              76
• Table 21. VR headset products. 81
• Table 22. Augmented reality (AR) smart glass products.  82
• Table 23. Mixed Reality (MR) smart glass products.           82
• Table 24. Wearable electronics applications in the military.           83
• Table 25. Wearable workplace products.               84
• Table 26. Global market for wearable electronics, 2015-2032, by product type, billions $. 88
• Table 27.Market challenges in wearable electronics.        91
• Table 28. Market drivers for printed, flexible and stretchable medical and healthcare sensors and wearables.        93
• Table 29. Examples of wearable medical device products.              97
• Table 30. Medical wearable companies applying products to COVID-19 monitoring and analysis.  100
• Table 31. Applications in flexible and stretchable health monitors, by advanced materials type and benefits thereof.                109
• Table 32. Wearable bio-signal monitoring devices.            111
• Table 33. Technologies for minimally-invasive and non-invasive glucose detection-advantages and disadvantages.                113
• Table 34. Commercial devices for non-invasive glucose monitoring not released or withdrawn from market.          116
• Table 35. Minimally-invasive and non-invasive glucose monitoring products.         118
• Table 36. Companies developing wearable swear sensors.             131
• Table 37. Wearable drug delivery companies and products.          133
• Table 38. Companies and products, cosmetics and drug delivery patches.               135
• Table 39. Companies and products in smart footwear.    136
• Table 40. Companies and products in smart contact lenses.          137
• Table 41. Companies and products in smart wound care.                140
• Table 42. Companies developing wearable exoskeletons.               141
• Table 43. Companies and products in hearables. 144
• Table 44. Global medical and healthcare wearables market, 2017-2032, billions $, by product.      147
• Table 45. Market challenges in medical and healthcare sensors and wearables.   149
• Table 46. Market drivers for printed, flexible, stretchable and organic electronic textiles. 152
• Table 47. Examples of smart textile products.      154
• Table 48. Performance requirements for E-textiles.          154
• Table 49. Types of flexible conductive polymers, properties and applications.        160
• Table 50. Typical conductive ink formulation.      161
• Table 51. Comparative properties of conductive inks.       162
• Table 52. Applications in textiles, by advanced materials type and benefits thereof.           164
• Table 53. Nanocoatings applied in the textiles industry-type of coating, nanomaterials utilized, benefits and applications.       166
• Table 54. Applications and benefits of graphene in textiles and apparel.  168
• Table 55. Properties of CNTs and comparable materials. 172
• Table 56. Commercially available smart clothing products.             176
• Table 57. Electronic textile products.       178
• Table 58. Example heated jacket products.           180
• Table 59. Heated jacket and clothing products.   181
• Table 60. Examples of materials used in flexible heaters and applications.               182
• Table 61. Companies and products in smart footwear.    186
• Table 62. Wearable electronics applications in the military.           188
• Table 63. Companies developing smart diaper products. 189
• Table 64. E-textiles investments and funding 2020-2021. 192
• Table 65. Global electronic textiles and smart clothing market 2017-2030, revenues (billions USD).             192
• Table 66. Market challenges in E-textiles.              195
• Table 67. Market requirements for energy storage in wearables. 199
• Table 68. Flexible battery applications and technical requirements.           200
• Table 69. Flexible Li-ion battery prototypes.         207
• Table 70. Electrode designs in flexible lithium-ion batteries.          209
• Table 71. Summary of fiber-shaped lithium-ion batteries.              212
• Table 72. Types of fiber-shaped batteries.            224
• Table 73. Components of transparent batteries. 227
• Table 74. Components of degradable batteries. 229
• Table 75. Applications of nanomaterials in flexible and stretchable supercapacitors, by advanced materials type and benefits thereof.              233
• Table 76. Main components and properties of different printed battery types.     236
• Table 77.2D and 3D printing techniques. 239
• Table 78. Printing techniques applied to printed batteries.            241
• Table 79. Main components and corresponding electrochemical values of lithium-ion printed batteries.   241
• Table 80. Printing technique, main components and corresponding electrochemical values of printed batteries based on Zn–MnO2 and other battery types.    243
• Table 81. Main 3D Printing techniques for battery manufacturing.             247
• Table 82. Electrode Materials for 3D Printed Batteries.    249
• Table 83. Methods for printing supercapacitors. 250
• Table 84. Electrode Materials for printed supercapacitors.             251
• Table 85. Electrolytes for printed supercapacitors.            252
• Table 86. Main properties and components of printed supercapacitors.   253
• Table 87. Flexible batteries types in wearable sensors.    258
• Table 88. Advantages and disadvantages of batteries for E-textiles.           263
• Table 89. Comparison of prototype batteries (flexible, textile, and other) in terms of area-specific performance.  264
• Table 90. Battery performance test specifications of J. Flex batteries.       387

List of Figures

• Figure 1. Evolution of electronics.             34
• Figure 2. Wove Band.     40
• Figure 3. Wearable graphene medical sensor.     41
• Figure 4. Stretchable transistor. 42
• Figure 5. Artificial skin prototype for gesture recognition.              44
• Figure 6. Applications timeline for organic and printed electronics.            45
• Figure 7. Applications of wearable flexible sensors worn on various body parts.    46
• Figure 8. Systemization of wearable electronic systems. 47
• Figure 9. Intel Horseshoe Bend. 51
• Figure 10. ThinkPad X1 Fold.        51
• Figure 11. Motorola Razr.             51
• Figure 12. Galaxy Fold 2.               52
• Figure 13. Galaxy Z Flip. 52
• Figure 14. Tri-fold phone-tablet hybrid.  52
• Figure 15. TCL rollable phone.    53
• Figure 16. Xiaomi MIX Flex.          53
• Figure 17. Baby Monitor.              56
• Figure 18. Wearable health monitor incorporating graphene photodetectors.      56
• Figure 19. Wearable bio-fluid monitoring system for monitoring of hydration.      69
• Figure 20. Beddr SleepTuner.     75
• Figure 21. TCL NXTWEAR Air.       80
• Figure 22. Shiftall MeganeX.       80
• Figure 23. Vuzix Blade.   81
• Figure 24. NReal Light MR smart glasses.               82
• Figure 25. Global market for wearables, 2015-2032, by product type, billions US$.              88
• Figure 26. Global market for hearables, 2017-2032, by product type, billions US$.               90
• Figure 27. Global market for wearables, 2020-2032, by market share of product type        91
• Figure 28. Connected human body and product examples.            97
• Figure 29. Companies and products in wearable health monitoring and rehabilitation devices and products.           102
• Figure 30. Smart e-skin system comprising health-monitoring sensors, displays, and ultra flexible PLEDs.  108
• Figure 31. Graphene medical patch.         110
• Figure 32. Graphene-based E-skin patch.               111
• Figure 33. Technologies for minimally-invasive and non-invasive glucose detection.           113
• Figure 34. Schematic of non-invasive CGM sensor.            117
• Figure 35. Adhesive wearable CGM sensor.          117
• Figure 36. VitalPatch.     122
• Figure 37. Wearable ECG-textile.              122
• Figure 38. Wearable ECG recorder.           123
• Figure 39. Nexkin™.        123
• Figure 40. Bloomlife.      125
• Figure 41. Enfucell wearable temperature tag.    127
• Figure 42. TempTraQ wearable wireless thermometer.   128
• Figure 43. Nanowire skin hydration patch.             128
• Figure 44. NIX sensors.  129
• Figure 45. Wearable sweat sensor.           129
• Figure 46. Wearable sweat sensor.           130
• Figure 47. Gatorade's GX Sweat Patch.   131
• Figure 48. Sweat sensor incorporated into face mask.      131
• Figure 49. Lab-on-Skin™.              132
• Figure 50. D-mine Pump.              133
• Figure 51. My UV Patch. 134
• Figure 52. Overview layers of L'Oreal skin patch. 135
• Figure 53. Digitsole Smartshoe. 136
• Figure 54. Schematic of smart wound dressing.  139
• Figure 55. REPAIR electronic patch concept. Image courtesy of the University of Pittsburgh School of Medicine.    140
• Figure 56. Honda Walking Assist.               141
• Figure 57. archelis wearable chair.            142
• Figure 58. Nuheara IQbuds² Max.             144
• Figure 59. Global medical and healthcare wearables market, 2017-2032, billions $, by product.    147
• Figure 60. Global market for medical and healthcare sensors and wearables, 2020-2032, by market share of product type.     149
• Figure 61. Conductive yarns.       157
• Figure 62. SEM image of cotton fibers with PEDOT:PSS coating.   159
• Figure 63. Applications of graphene in smart textiles and apparel.              170
• Figure 64. PCM cooling vest.       176
• Figure 65. EXO2 Stormwalker 2 Heated Jacket.    179
• Figure 66. Flexible polymer-based heated glove, sock and slipper.              181
• Figure 67. ThermaCell Rechargeable Heated Insoles.        181
• Figure 68. Myant sleeve tracks biochemical indicators in sweat.  184
• Figure 69. Flexible polymer-based therapeutic products. 184
• Figure 70. iStimUweaR . 185
• Figure 71. Digitsole Smartshoe. 186
• Figure 72. Basketball referee Royole fully flexible display.              188
• Figure 73. ABENA Nova smart diaper.      190
• Figure 74. Textile-based car seat heaters.              191
• Figure 75. Global electronic textiles and smart clothing 2017-2030, revenues (billions USD).Source: Future Markets.                194
• Figure 76. Global market for electronics and smart textiles, 2020-2032, by market share of product type. 195
• Figure 77. Stretchable transistor.              198
• Figure 78. Ragone plots of diverse batteries and the commonly used electronics powered by flexible batteries.    200
• Figure 79. Flexible, rechargeable battery.              202
• Figure 80. Various architectures for flexible and stretchable electrochemical energy storage.        202
• Figure 81. Types of flexible batteries.      204
• Figure 82. Materials and design structures in flexible lithium ion batteries.             206
• Figure 83. Flexible/stretchable LIBs with different structures.      209
• Figure 84. Schematic of the structure of stretchable LIBs.               210
• Figure 85. Electrochemical performance of materials in flexible LIBs.         210
• Figure 86. a–c) Schematic illustration of coaxial (a), twisted (b), and stretchable (c) LIBs.  213
• Figure 87. a) Schematic illustration of the fabrication of the superstretchy LIB based on an MWCNT/LMO composite fiber and an MWCNT/LTO composite fiber. b,c) Photograph (b) and the schematic illustration (c) of a stretchable fiber-shaped battery under stretching conditions. d) Schematic illustration of the spring-like stretchable LIB. e) SEM images of a fiberat different strains. f) Evolution of specific capacitance with strain. d–f) 214
• Figure 88. Origami disposable battery.    215
• Figure 89. Zn–MnO2 batteries produced by Brightvolt.    218
• Figure 90. Charge storage mechanism of alkaline Zn-based batteries and zinc-ion batteries.           220
• Figure 91. Zn–MnO2 batteries produced by Blue Spark.   221
• Figure 92. Ag–Zn batteries produced by Imprint Energy. 221
• Figure 93. Transparent batteries.              227
• Figure 94. Degradable batteries. 229
• Figure 95. Schematic of supercapacitors in wearables.     231
• Figure 96. (A) Schematic overview of a flexible supercapacitor as compared to conventional supercapacitor.          232
• Figure 97. Stretchable graphene supercapacitor. 233
• Figure 98. Various applications of printed paper batteries.             235
• Figure 99.Schematic representation of the main components of a battery.             236
• Figure 100. Schematic of a printed battery in a sandwich cell architecture, where the anode and cathode of the battery are stacked together.     237
• Figure 101. Manufacturing Processes for Conventional Batteries (I), 3D Microbatteries (II), and 3D-Printed Batteries (III).       246
• Figure 102. Main printing methods for supercapacitors.  250
• Figure 103. Schematic flow chart of self-powering smart wearable sensors.           257
• Figure 104. E-textile flexible, printed and thin film battery applications.   259
• Figure 105.  Wearable self-powered devices.       261
• Figure 106. Power supply mechanisms for electronic textiles and wearables.        262
• Figure 107.  Revenues for thin film, flexible and printed batteries 2021-2032, by market, millions USD (excluding thin film solid-state batteries).            266
• Figure 108. Libre 3.          269
• Figure 109. KneeStim.    284
• Figure 110. LED hooded jacket.  287
• Figure 111. Heated element module.      287
• Figure 112. Structure of Azalea Vision’s smart contact lens.           294
• Figure 113. Cogwear Headband. 321
• Figure 114. Graphene dress. The dress changes colour in sync with the wearer’s breathing.           326
• Figure 115. Descante Solar Thermo insulated jacket.        328
• Figure 116. G+ Graphene Aero Jersey.    331
• Figure 117. Roll-to-roll equipment working with ultrathin steel substrate.              341
• Figure 118. HiFlex strain/pressure sensor.            350
• Figure 119. KiTT motion tracking knee sleeve.     356
• Figure 120. KnowU™.     389
• Figure 121. Electroskin integration schematic.     415
• Figure 122. Vital Shirt from Nanoleq.       415
• Figure 123. Modius Sleep wearable device.          422
• Figure 124. Nextiles e-fabric.      425
• Figure 125. Prevayl sensor.          442
• Figure 126. Printed battery.         443
• Figure 127. RealWear HMT-1.     448
• Figure 128. Sylvee 1.0.   450
• Figure 129. RootiRx.        452
• Figure 130. Smardii smart diaper.              476
• Figure 131. Teslasuit.      490
• Figure 132. Ultrahuman wearable glucose monitor.          497
• Figure 133. Wiliot tags.  512
• Figure 134. Zeit Medical Wearable Headband.    516
• Figure 135. YouCare smart shirt. 519

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