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

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Published April 2021 | 555 pages, 135 figures, 90 tables | Download Table of contents

The Global Market for Electronic Textiles, Skin Patches & Wearable Electronics, Batteries and Sensors presents the latest developments in electronic textiles, wearable electronics, batteries and sensors as well as skin patches including remote sensing technologies for continuous measurement and modulation of body parameters including glucose, heart rate, blood pressure, sweat, etc.

Report contents include: 

  • Market analysis of smart skin patches, e-textiles, wearable batteries & sensors, printed, flexible and stretchable electronics. Including invasive as well as non- invasive technologies, on-skin and textile electronics and use for clothing, communication, information, healthcare monitoring, sensing etc.
  • In depth commercial assessment including products, producers, functionalities and prices. 
  • Global market revenues, historical and forecast to 2032 for e-textiles, skin patches and wearable electronics, batteries & sensors. 
  • 336 company profiles. Companies profiled include Almawave, Ava AG, Azalea Vision, BioIntelliSense, Cefaly Technology, Cogwear, GE Heatlthcare, InnovationLab, Jabil, Liquid Metal, Medtronic, Myant, Nanoleq AG, Organic Robotics Corporation, Wise SRL etc.
 

 

 
 
 

 

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

 

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

The Global Market for Electronic Textiles, Skin Patches and Wearable Electronics, Batteries & Sensors 2022-2032
The Global Market for Electronic Textiles, Skin Patches and Wearable Electronics, Batteries & Sensors 2022-2032
PDF download and print edition (including tracked delivery).

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