The Global Market for Stretchable and Conformable Materials and Electronics - Product Image

The Global Market for Stretchable and Conformable Materials and Electronics

  • ID: 4516628
  • Report
  • Region: Global
  • 335 Pages
  • Future Markets, Inc
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There is huge global interest in incorporating electronic functions into clothing and wearable devices for applications such as wearable sensing, healthcare, soft robotics and human computer interfaces. These areas will greatly benefit from developing electrical interconnects, sensors, transistors and circuits, lighting elements and power sources that are fully stretchable and conformable.

Electronics and power sources electronics which are not only flexible but also conformable and deformable offer the advantages of conventional devices while ideally maintaining excellent electrical properties under strain. They can stretched like a rubber band and twisted like a rope without any significant reduction in performance.

Their development is key to the realization of wearables as they can deform along with soft interfaces such as:

  • textiles
  • skin
  • tissue
  • moving components in devices and robots

Applications include:

  • Stretchable conductors
  • Gas sensor textiles
  • Soft robotics
  • Wearables in sport and healthcare
  • Transparent electrodes on textile substrates
  • Sensory skins
  • Medical on-body skin patches
  • Artificial muscles
  • Battery and supercapacitor textiles
  • Sensors for diabetes monitoring and therapy
  • Comfort electronics in apparel and clothing
  • Formable plastics
  • Stretchable conductive elastomers

Report contents include:

  • Future applications in Stretchable and Conformable Materials and Electronics
  • Trends in Stretchable and Conformable Materials and Electronics
  • Applications of Stretchable and Conformable Materials and Electronics
  • Organic and polymeric materials for Flexible and Stretchable Electronics analysis
  • Components analysis
  • Over 150 company profiles
  • Market revenue forecasts to 2028
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1 EXECUTIVE SUMMARY
1.1 The evolution of electronics
1.1.1 The wearables revolution
1.1.2 Flexible, thin, and large-area form factors
1.2 What are stretchable/deformable electronics?
1.2.1 From rigid to flexible and stretchable
1.2.2 Organic and printed electronics
1.2.3 New conductive materials
1.3 Growth in stetchable/conformable electronics market
1.3.1 Recent growth in stretchable/conformable products
1.3.2 Future growth
1.3.3 Nanomaterials in stretchable electronics
1.3.4 Challenges in developing stretchable materials and electronics
1.4 Products
1.5 Global revenues for stretchable/conformable materials and electronics 2018-2028 by market
1.5.1 Textiles and apparel
1.5.2 Skin sensors
1.5.3 Wearables
1.5.4 Batteries and energy harvesting
1.5.5 Medical and healthcare wearables

2 RESEARCH METHODOLOGY

3 INTRODUCTION
3.1 What are stretchable/conformable electronics?
3.2 Approaches for developing stretchable electronics
3.3 Fabricating stretchable electronics
3.4 Main applications of stretchable/conformable electronics?

4 MATERIALS UTILIZED IN STRETCHABLE ELECTRONICS
4.1 CARBON NANOTUBES
4.1.1 Properties
4.1.2 Properties utilized in stretchable electronics
4.1.2.1 Single-walled carbon nanotubes
4.1.3 Applications in stretchable electronics
4.2 CONDUCTIVE POLYMERS (CP)
4.2.1 Properties
4.2.1.1 PDMS
4.2.1.2 PEDOT: PSS
4.2.2 Properties utilized in stretchable electronics
4.2.3 Applications in stretchable electronics
4.3 GRAPHENE
4.3.1 Properties
4.3.2 Properties utilized in stretchable electronics
4.3.3 Applications in stretchable electronics
4.4 METAL MESH
4.4.1 Properties
4.4.2 Properties utilized in stretchable electronics
4.4.3 Applications in stretchable electronics
4.5 SILVER FLAKE
4.5.1 Silver (Ag) nanoparticle ink
4.5.1.1 Conductivity
4.5.2 Silver nanowires
4.6 COPPER INK
4.6.1 Silver-coated copper
4.6.2 Copper (Cu) nanoparticle ink
4.7 NANOCELLULOSE
4.7.1 Properties utilized in stretchable electronics
4.7.2 Applications in printable, flexible and stretchable electronics
4.7.2.1 Nanopaper
4.7.2.2 Paper memory
4.8 OTHER MATERIALS
4.8.1 Liquid metals
4.8.2 Other 2-D materials

5 TECHNOLOGY READINESS LEVEL FOR STRETCHABLE/CONFORMABLE ELECTRONICS

6 STRETCHABLE CONDUCTIVE INKS
6.1 MARKET DRIVERS
6.2 CONDUCTIVE INK TYPES
6.3 PRINTING METHODS
6.3.1 Nanoparticle ink
6.4 Sintering
6.5 Conductive Filaments
6.6 Conductive films, foils and grids
6.7 Inkjet printing In flexible electronics
6.8 Stretchable conductive inks
6.9 APPLICATIONS
6.9.1 Properties
6.9.2 Current products
6.9.3 Advanced materials solutions
6.9.3.1 Graphene stretchable conductive inks
6.9.3.2 Carbon nanotubes
6.9.4 Stretchable conductive inks in electronic textiles
6.9.5 Stretchable conductive inks in printable sensors
6.9.6 In-mold stetchable conductive inks
6.9.6.1 Applications
6.9.6.2 Commercially available products
6.10 COMPANY PROFILES

7 STRETCHABLE TRANSPARENT CONDUCTIVE FILMS (TCF)
7.1 MARKET DRIVERS
7.2 APPLICATIONS
7.2.1 Flexible and stretchable TCFs
7.2.2 Advanced materials solutions
7.2.3 Types of stretchable TCFs
7.2.4 Stretchable carbon nanotube TCFs
7.2.4.1 Double-walled carbon nanotubes
7.2.5 Graphene
7.2.6 Stretchable wearable touchpad
7.3 COMPANY PROFILES

8 STRETCHABLE SENSORS
8.1 Current state of the art
8.2 Advanced materials solutions
8.2.1 Conductive nanofibers
8.2.2 Graphene
8.2.3 Electroactive polymers (EAPs)
8.3 Stretchable conductive elastomers
8.4 Wearable gas sensors
8.5 Stretchable strain sensors
8.6 Wearable tactile sensors
8.7 Nanomaterials-based devices
8.8 Stretchable medical sensors and health monitors
8.8.1 Electronic skin for medical wearables
8.8.2 Patch-type skin sensors
8.8.3 Skin temperature monitoring
8.8.4 Hydration sensors
8.8.5 Wearable sweat sensors
8.8.6 UV patches
8.8.7 Smart footwear
8.8.8 Neural prosthesis
8.8.9 Aritificial skin
8.9 COMPANY PROFILES

9 STRETCHABLE ELECTRONIC TEXTILES
9.1 MARKET DRIVERS
9.2 APPLICATIONS
9.2.1 Current state of the art for electronics textiles
9.2.2 Stretchable electronics in textiles
9.2.3 Stretchable and washable
9.2.4 Stretchable heaters for wearable thermotherapy
9.2.5 Powering stretchable E-textiles
9.2.6 Conductive stretchable fibers and yarns
9.2.7 Solar energy harvesting textiles
9.3 COMPANY PROFILES

10 STRETCHABLE BATTERIES AND ENERGY HARVESTING
10.1 MARKET DRIVERS
10.2 APPLICATIONS
10.2.1 Current state of the art
10.2.1.1 Fiber/wire stretchable batteries
10.2.1.2 Kirigami stretchable batteries
10.2.1.3 Origami stretchable batteries
10.2.1.4 Bridge-island battery design
10.2.1.5 Embedded in stretchable fabrics
10.2.2 Advanced materials solutions
10.3 Flexible and stretchable batteries
10.4 Stretchable supercapacitors
10.5 Fiber-shaped Lithium-Ion batteries
10.6 Stretchable energy harvesting
10.6.1 Stretchable capacitive energy harvesting
10.6.2 Stretchable piezoelectric energy harvesting
10.6.3 Stretchable triboelectric energy harvesting
10.7 COMPANY PROFILES

11 STRETCHABLE DISPLAYS
11.1 MARKET DRIVERS
11.2 APPLICATIONS
11.2.1 Flexible displays
11.2.1.1 Flexible LCDs
11.2.1.2 Flexible OLEDs (FOLED)
11.2.1.3 Stretchable AMOLED
11.2.1.4 Stretchable electrophoretic displays
11.3 COMPANY PROFILES

12 STRETCHABLE PRINTED CIRCUIT BOARDS
12.1 APPLICATIONS
12.2 COMPANY PROFILES

13 STRETCHABLE TRANSISTORS
13.1 MARKET DRIVERS
13.2 APPLICATIONS
13.2.1 Stretchable thin film transistors
13.2.2 Stretchable high-performance circuits
13.2.3 Stretchable LED lighting
13.3 COMPANY PROFILES

List of Tables:
Table 1: Evolution of wearable devices, 2011-2017
Table 2: Advanced materials for printable, flexible and stretchable sensors and Electronics-Advantages and disadvantages
Table 3: Sheet resistance (RS) and transparency (T) values for transparent conductive oxides and alternative materials for transparent conductive electrodes (TCE)
Table 4: Markets for stretchable electronics
Table 5: Challenges in developing stretchable electronics
Table 6: Stretchable electronics products
Table 7: Global smart clothing, interactive fabrics and apparel market
Table 8: Global market for wearable electronics, 2015-2027, by application, billions $
Table 9: Potential addressable market for thin film, flexible and printed batteries
Table 10: Properties of CNTs and comparable materials
Table 11: Types of flexible and stretchable conductive polymers, properties and applications
Table 12: Properties of graphene
Table 13: Advantages and disadvantages of fabrication techniques to produce metal mesh structures
Table 14: Types of flexible conductive polymers, properties and applications
Table 15: Properties of flexible electronics-cellulose nanofiber film (nanopaper)
Table 16: Properties of flexible electronics cellulose nanofiber films
Table 17: Other 2-D materials in stretchable electronics
Table 18: Market drivers for stretchable conductive inks
Table 19: Typical conductive ink formulation
Table 20: Characteristics of analog printing processes for conductive inks
Table 21: Characteristics of digital printing processes for conductive inks
Table 22: Commercially available stretchable conductive inks
Table 23: Comparative properties of conductive inks
Table 24: Applications in conductive inks by type and benefits thereof
Table 25: Market drivers for stretchable TCFs
Table 26: Transparent conductive switches-PEDOT
Table 27: Applications in printable, flexible and stretchable sensors, by advanced materials type and benefits thereof
Table 28: Types of stretchable TCFs
Table 29: Graphene properties relevant to application in sensors
Table 30: Applications in flexible and stretchable health monitors, by advanced materials type and benefits thereof
Table 31: Wearable medical device products and stage of development
Table 32: Applications in patch-type skin sensors, by materials type and benefits thereof
Table 33: Market drivers for stretchable electronic textiles
Table 34: Examples of smart textile products
Table 35: Currently available technologies for smart textiles
Table 36: Smart clothing and apparel and stage of development
Table 37: Applications in textiles, by advanced materials type and benefits thereof
Table 38: Market drivers for stretchable electronic energy storage
Table 39: Wearable energy and energy harvesting devices and stage of development
Table 40: Applications in flexible and stretchable batteries, by materials type and benefits thereof
Table 41: Applications in flexible and stretchable supercapacitors, by nanomaterials type and benefits thereof
Table 42: Market drivers for stretchable displays
Table 43: Applications in flexible and stretchable circuit boards, by advanced materials type and benefits thereof
Table 44: Market drivers for stretchable transistors
Table 45: Price comparison of thin-film transistor (TFT) electronics technology

List of Figures:
Figure 1: Evolution of electronics
Figure 2: Wove Band
Figure 3: Wearable graphene medical sensor
Figure 4: Applications timeline for organic and printed electronics
Figure 5: Wearable health monitor incorporating graphene photodetectors
Figure 6: Global revenues for stretchable/conformable materials and electronics 2017-2027
Figure 7: Global smart clothing, interactive fabrics and apparel market 2013-2027 revenue forecast (million $)
Figure 8 Global smart clothing, interactive fabrics and apparel sales by market segment, 2016
Figure 9: Global market for wearable electronics, 2015-2027, by application, billions $
Figure 10: Demand for thin film, flexible and printed batteries 2015, by market
Figure 11: Demand for thin film, flexible and printed batteries 2027, by market
Figure 12: Global medical and healthcare smart textiles and wearables market, 2015-2027, billions $
Figure 13: Schematic of single-walled carbon nanotube
Figure 14: Stretchable SWNT memory and logic devices for wearable electronics
Figure 15: Stretchable carbon aerogel incorporating carbon nanotubes
Figure 16: Flexible graphene touch screen
Figure 17: Foldable graphene E-paper
Figure 18: Large-area metal mesh touch panel
Figure 19: Silver nanocomposite ink after sintering and resin bonding of discrete electronic components
Figure 20: Flexible silver nanowire wearable mesh
Figure 21: Copper based inks on flexible substrate
Figure 22: Cellulose nanofiber films
Figure 23: Nanocellulose photoluminescent paper
Figure 24: LEDs shining on circuitry imprinted on a 5x5cm sheet of CNF
Figure 25: Foldable nanopaper
Figure 26: Foldable nanopaper antenna
Figure 27: Paper memory (ReRAM)
Figure 28: Technology readiness level for stretchable/deformable electronics applications
Figure 29: BGT Materials graphene ink product
Figure 30: Stretchable material for formed an in-molded electronics
Figure 31: Wearable patch with a skin-compatible, pressure-sensitive adhesive
Figure 32: Conductive inks in the flexible and stretchable electronics market 2017-2027 revenue forecast (million $), by ink types
Figure 33: Panasonic CNT stretchable Resin Film
Figure 34: Stretchable touchpad
Figure 35: BITalino systems
Figure 36: Softceptor sensor
Figure 37: BeBop Media Arm Controller
Figure 38: LG Innotek flexible textile pressure sensor
Figure 39: C2Sense flexible sensor
Figure 40: <hitoe> nanofiber conductive shirt original design(top) and current design (bottom)
Figure 41: Garment-based printable electrodes
Figure 42: Wearable gas sensor
Figure 43: BeBop Sensors Marcel Modular Data Gloves
Figure 44: Graphene-based E-skin patch
Figure 45: Wearable bio-fluid monitoring system for monitoring of hydration
Figure 46: Smart mouth guard
Figure 47: Connected human body
Figure 48: Flexible, lightweight temperature sensor
Figure 49: Prototype ECG sensor patch
Figure 50: Smart e-skin system comprising health-monitoring sensors, displays, and ultra flexible PLEDs
Figure 51: Graphene medical patch
Figure 52: TempTraQ wearable wireless thermometer
Figure 53: Mimo baby monitor
Figure 54: Nanowire skin hydration patch
Figure 55: Wearable sweat sensor
Figure 56: GraphWear wearable sweat sensor
Figure 57: My UV Patch
Figure 58: Overview layers of L’Oreal skin patch
Figure 59: Conductive yarns
Figure 60: Schematic illustration of the fabrication concept for textile-based dye-sensitized solar cells (DSSCs) made by sewing textile electrodes onto cloth or paper
Figure 61: Energy harvesting textile
Figure 62: LG Chem Heaxagonal battery
Figure 63: Printed 1.5V battery
Figure 64: Enfucell Printed Battery
Figure 65: Energy densities and specific energy of rechargeable batteries
Figure 66: Stretchable graphene supercapacitor
Figure 67: StretchSense Energy Harvesting Kit
Figure 68: LG Display LG Display 77-inch flexible transparent OLED display
Figure 69: Carbon nanotubes flexible, rechargeable yarn batteries incorporated into flexible, rechargeable yarn batteries
Figure 70: Flexible LCD
Figure 71: “Full ActiveTM Flex”
Figure 72: FOLED schematic
Figure 73: Foldable display
Figure 74: Stretchable AMOLED
Figure 75: LGD 12.3” FHD Automotive OLED
Figure 76: LECTUM® display
Figure 77: Thin film transistor incorporating CNTs

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