Slides created from the market report, Smart Textile Markets 2016-2023 that n-tech Research issued in Q4 of 2015. In the report the firm predicted that the market for smart textiles will reach $1.8 billion (US$) by 2021 - See more at: http://ntechresearch.com/news
2. About n-tech Research
n-tech Research PO Box 3840 Glen Allen, VA 23058
Phone: 804-938-0030
Email: info@ntechresearch.com
Web: www.ntechresearch.com
• The rebrand of industry analyst firm NanoMarkets founded back in 2004
• Specialization in analyzing and forecasting market opportunities arising from advances in and application
of advanced materials. Special focus on functional and smart materials and coatings and their impact on
markets
• Provide full length market reports, focused subject matter analysis and individualized consulting
engagements with emphasis on providing customer focused analytical content solutions
• Global client roster ranging from top tier multinational firms to start ups, research institutes and technology
transfer offices
• Founders have decades of experience in producing analysis of emerging technologies and markets
3. n-tech Research
PO Box 3840 Glen Allen, VA 23058
Email: info@ntechresearch.com
Web: www.ntechresearch.com
Smart Textile Markets 2016-2023
In this report we identify the opportunities emerging from commercialization of smart textiles. These include textiles
that are (1) fabricated from smart materials or (2) utilize sensing devices that are seamlessly integrated into the
textile.
The smart textile sector has taken off in the past few years, driven by the keen interest in the Internet-of-things (IoT)
and enabled by the latest smart materials and powerful sensing devices. This report provides market coverage of the
potential for emerging textile products where the textile is rapidly becoming the sensor.
The report also discusses how the latest generation of smart materials is expanding the market for advanced
textiles. While the focus of this report is on the opportunity for smart textiles, we also discuss how the sensor
industry can benefit from the latest trends in smart textiles and also how the supply chain for smart textiles is
evolving.
In putting together this report n-tech has drawn on its extensive experience in the smart materials space as well as
interviews with key companies in smart textiles. n-tech believes that this report will provide valuable insight into the
smart textiles market that will benefit marketing and business development executives from various parts of the
supply chain, including raw material suppliers, chemical companies, and clothing manufacturers, as well as investors
in the industry.
About the Report
n-tech Research PO Box 3840 Glen Allen, VA 23058
Phone: 804-938-0030
Email: info@ntechresearch.com
Web: www.ntechresearch.com
4. n-tech Research
PO Box 3840 Glen Allen, VA 23058
Email: info@ntechresearch.com
Web: www.ntechresearch.com
Applications and Markets
This report includes an analysis of applications where n-tech believes smart textiles have a real opportunity to move beyond the lab
and expensive demonstrations high-volume commercial applications. Applications covered include:
• Health and Fitness: Sportswear, health monitoring, and clinical applications
• Military and Security: Uniforms for soldiers and firefighters
• Fashion: Functional clothing for the masses
• Non-clothing applications: Solar cells, automotive, and more.
Eight-Year Forecasts for Smart Textile Materials
This report contains detailed forecasts of volume (in square meters and units) and revenue (in $ millions), broken down by:
• End application
• Type of material
• Fabrication method
About the Report
n-tech Research PO Box 3840 Glen Allen, VA 23058
Phone: 804-938-0030
Email: info@ntechresearch.com
Web: www.ntechresearch.com
5. n-tech Research
PO Box 3840 Glen Allen, VA 23058
Email: info@ntechresearch.com
Web: www.ntechresearch.com
Smart Textile: Materials, Manufacturing and Components
This report provides coverage of how the following categories of materials are being used to fabricate commercially available smart
textiles:
• Electrically conductive yarns and threads
• Conductive polymers
• Shape memory materials
• Color-changing materials
• Phase-changing materials
• Self-cleaning and antimicrobial materials
• Nanomaterials
We also discuss how sensors are being integrated into textiles and how these will be powered. Finally, this report provides coverage
of the latest business trends in smart textile fabrication processes, including weaving, knitting, printing, and embroidery. We focus
on how these processes can be used to advance integration of function into textiles.
About the Report
n-tech Research PO Box 3840 Glen Allen, VA 23058
Phone: 804-938-0030
Email: info@ntechresearch.com
Web: www.ntechresearch.com
6. n-tech Research
PO Box 3840 Glen Allen, VA 23058
Email: info@ntechresearch.com
Web: www.ntechresearch.com
Chapter Three: Applications for Smart Textiles
3.1 Overlap between Health and Fitness Markets
3.2 Sports-focused Applications
3.3 Medical-focused Applications
3.4 Clothing for the Military
3.5 Protective Clothing for First Responders and Industrial Workers
3.6 Changes in the Fashion Industry
3.7 Niche Applications for Smart Textiles
3.8 Key Points from this Chapter
Chapter Four: Eight-Year Forecasts for Materials and Sensors in Smart
Textiles
4.1 Forecast Methodology
4.2 Smart Textiles: Forecasts by Smart Material Type
4.3 Forecasts by Type of Sensor
4.4 Forecasts by Application
Acronyms and Abbreviations Used In this Report
About the Author
Top Level Table of Contents
n-tech Research PO Box 3840 Glen Allen, VA 23058
Phone: 804-938-0030
Email: info@ntechresearch.com
Web: www.ntechresearch.com
Executive Summary
E.1 Market Opportunities: Blurring the Lines between Fashion,
Technology, and Healthcare
E.2 Emerging Second Generation Smart Textiles: Sports, Health and Fashion
E.3 Technical Trends in Smart Materials and the Future of Smart Textiles
Manufacturing
E.4 Influential Firms to Watch in the Smart Textiles Sector
E.5 Summary of Eight-Year Forecasts for Smart Textiles Materials
Chapter One: Introduction
1.1 Background to this Report
1.2 Objectives and Scope of this Report
1.3 Methodology of this Report
1.4 Plan of this Report
Chapter Two: Materials and Technology Advances in Smart Textiles
2.1 Electrically Conductive Fabrics
2.2 Embedding Sensors into Textiles
2.3 Powering Smart Textiles
2.4 Electronics and Communication
2.5 Inherently Smart Fabrics
2.6 Manufacturing Challenges
2.7 Key Points from this Chapter
7. n-tech Research
PO Box 3840 Glen Allen, VA 23058
Email: info@ntechresearch.com
Web: www.ntechresearch.com
Profiles of Key Players
n-tech Research PO Box 3840 Glen Allen, VA 23058
Phone: 804-938-0030
Email: info@ntechresearch.com
Web: www.ntechresearch.com
• AiQ
• BASF
• Bekaert
• BeBop
• Bodi Trak
• Carre
• Chromat
• Cisalfa
• Clariant
• Clothing+
• Diffus
• Dow Chemical
• DuPont
• Durafil
• Google
• Heddoko
• Imprint Energy
• Intel
• Jabil
• Lands' End
• Levi Strauss
• LifeSense
• Lost Explorer
• MAD Apparel
• Nike
• Nolla
• NTT
• Ohmatex
• Philips Healthcare
• Ralph Lauren
• Sarvint
• Schoeller Textiles
• Sefar
• Sensoria
• Silic
• SLIP Technologies
• TE Connectivity
• Under Armour
• Viavi
• VTT and others
8. n-tech Research
PO Box 3840 Glen Allen, VA 23058
Email: info@ntechresearch.com
Web: www.ntechresearch.com
Table of Figures
n-tech Research PO Box 3840 Glen Allen, VA 23058
Phone: 804-938-0030
Email: info@ntechresearch.com
Web: www.ntechresearch.com
• Eight-Year Forecasts for Materials and Sensors in Smart Textiles by
Application, 2016-2023, $ Millions
• Eight-Year Forecasts for Fabrics and Coatings in Smart Textiles by Material,
2016-2023, $ Millions
• Eight-Year Forecasts for Sensors in Smart Textiles by Sensor Type, 2016-
2023, $ Millions
• Requirements for Active Heating and Cooling Fabrics
• Requirements for Antimicrobial Fabrics
• SBIR Grants Related to Antimicrobial Textiles
• Fabrication Processes for Smart Textiles with Conductive Traces
• Smart Shirt Suppliers
• Patents for Smart Shirts with Biometric Monitoring
• Nike Patents Related to Smart Textiles
• Medical Smart Textile Products Based on Pressure Sensors
• Medical Smart Textile Products Based on Temperature, Motion, Chemical,
or Biometric Sensors
• Examples of Smart Textile Fashion Concepts Using Light and Color
• Eight-Year Forecast for Color-Shifting Materials in Smart Textiles, 2016-
2023
• Eight-Year Forecast for Antimicrobial Coatings in Smart Textiles, 2016-
2023
•
• Eight-Year Forecast for Self-Cleaning Coatings in Smart Textiles, 2016-2023
• Eight-Year Forecast for Heating and Cooling Fabrics in Smart Textiles,
2016-2023
• Eight-Year Forecast for Conductive Yarns, Threads and Inks in Smart
Textiles, 2016-2023
• Eight-Year Forecast for Conductive Yarns, Threads and Inks in Smart
Textiles, 2016-2023
• Eight-Year Forecast for Pressure Sensors in Smart Textiles, 2016-2023
• Eight-Year Forecast for Biometric Sensors in Smart Textiles, 2016-2023
• Eight-Year Forecast for Motion Sensors in Smart Textiles, 2016-2023
• Eight-Year Forecast for Chemical and Biosensors in Smart Textiles, 2016-
2023
• Eight-Year Forecast for Smart Textiles in Health and Fitness Applications,
2016-2023
• Eight-Year Forecast for Smart Textiles in Medical Applications, 2016-2023
• Eight-Year Forecast for Smart Textiles in Military Applications, 2016-2023
• Eight-Year Forecast for Smart Textiles in Fashion Applications, 2016-2023
• Eight-Year Forecast for Smart Textiles in Non-Clothing Applications, 2016-
2023
10. n-tech Research
PO Box 3840 Glen Allen, VA 23058
Email: info@ntechresearch.com
Web: www.ntechresearch.com
Materials and Technology Advances in Smart Textiles
n-tech Research PO Box 3840 Glen Allen, VA 23058
Phone: 804-938-0030
Email: info@ntechresearch.com
Web: www.ntechresearch.com
• Quite a few companies that make conductive yarns, threads, and fibers are already selling them for use in smart textiles.
There is also considerable potential for future development of value-added conductive fibers that result in improved fabric
feel.
• Conductive polymers are another option for providing conductive traces in textiles but their path to commercialization has
been much slower than for metal fibers. They are probably of greatest interest as piezoresistive coatings.
• Pressure sensors are a natural fit for integrating into textiles, and suppliers have an opportunity to benefit from the
growing market. Pressure-sensitive materials that change color with touch can also provide visual feedback. OEMs are
definitely interested in making use of pressure-sensitive fabrics, primarily for medical applications.
• Motion sensors woven into stretchable fabric can measure extension, bend, or shear and are especially of interest for
health and wellness applications, allowing continuous monitoring of movement. Commercialization is just beginning, but
we can envision quite a few new products making their debuts in the next few years.
• There is interest in developing heart-rate monitoring that can be incorporated in looser fitting clothing. One option is a
fabric chest strap that connects to an outer shirt, but a more textile-integrated approach uses optical sensors. Such optical
sensors are not yet commercialized but probably will be at some point.
• Biosensors printed on elastic can monitor changes in lactate, oxygen, and glucose, and underwear with such sensors
would be incredibly valuable in monitoring and treating disease and injury. Chemical sensors to monitor the environment
can also be integrated into textiles.
11. n-tech Research
PO Box 3840 Glen Allen, VA 23058
Email: info@ntechresearch.com
Web: www.ntechresearch.com
Materials and Technology Advances in Smart Textiles
n-tech Research PO Box 3840 Glen Allen, VA 23058
Phone: 804-938-0030
Email: info@ntechresearch.com
Web: www.ntechresearch.com
• True textile-based solar cells, as opposed to thin film photovoltaics on fabric backings, are under development. They are
based on OPV and DSC technologies but are not yet ready to move from the lab to volume production.
• Materials that can harvest energy from a wearer’s body heat or movements hold the promise of creating self-powered
sensors. Stretchable motion sensors can already achieve this to some degree, but fabrics with piezoelectric fibers,
currently under development, would be more versatile.
• Fabrics to enhance comfort in various climates are improving. They can absorb body moisture to generate warmth, reflect
UV to keep the wearer cool while providing UV protection, or use metals or polymers to active cool strategic zones.
Research is continuing, promising longer lasting heating or cooling function in the future.
• Most antimicrobial fabrics use silver-based coatings, either in the form of nanosilver or silver salts, but there is concern
over the effectiveness and durability of these treatments and research into new materials will provide better answers.
• Self-cleaning fabrics are moving away from those with fluorocarbons toward more ecologically friendly alternatives, which
have been developed by several companies. This trend is more pronounced in Europe than elsewhere.
• Self-healing materials have not seen much use in textiles, but there is some potential for repairing damage to fabrics.
There is not much demand so far in the architecture and transportation sectors, which would appear to be the most
promising.
12. n-tech Research
PO Box 3840 Glen Allen, VA 23058
Email: info@ntechresearch.com
Web: www.ntechresearch.com
Applications for Smart Textiles
n-tech Research PO Box 3840 Glen Allen, VA 23058
Phone: 804-938-0030
Email: info@ntechresearch.com
Web: www.ntechresearch.com
• The biometric smart shirt sector is becoming crowded, which is a sign that demand is growing and this is a viable market.
Success will depend on the outcome of ongoing IP battles, developing the right marketing strategy, and quality and
interoperability of associated smartphone apps.
• Other opportunities for smart clothing in the fitness sector include clothing that tracks motion or muscle activation, smart
fabrics to enhance comfort in hot and cold climates, and smart socks or insoles to track steps and foot strike.
• Sports-focused smart clothing is a sector with room for many players beyond athletic wear giants. This is especially true
for those whose offerings differ from what the large companies are producing.
• Textile-based sensors to monitor pressure, motion, temperature, and body chemistry will increasingly find their way into
clothing that is comfortable enough to wear every day. Over a dozen companies are developing or have recently released
products that are geared toward in-home monitoring and chronic disease management.
• Smart textiles for home monitoring of patients with dementia or Parkinson’s can provide an alternative to full-time nursing
care. The most promising solutions, still under development, are smart insoles or slippers that track movement.
• Smart mattresses in hospitals provide real-time pressure sensing, along with feedback to adjust the support as needed to
relieve pressure spots. Antimicrobial scrubs can protect medical staff, and even patients, from healthcare-associated
infections. These are beginning to appear in hospitals, but there is room to develop improved products.
13. n-tech Research
PO Box 3840 Glen Allen, VA 23058
Email: info@ntechresearch.com
Web: www.ntechresearch.com
Applications for Smart Textiles
n-tech Research PO Box 3840 Glen Allen, VA 23058
Phone: 804-938-0030
Email: info@ntechresearch.com
Web: www.ntechresearch.com
• Research efforts may lead to new products such as smart bandages for wound monitoring and puncture-resistant gloves that still
allow dexterity and tactile sensation. Smart textiles may also find their way into biofeedback systems and systems to diagnose
epilepsy.
• For the military, the real opportunity for smart textiles is related to the trend to move technology to the individual. Conductive fibers
in combination with wearable solar panels and self-powered sensors can address the problem of bulky cables. Smart textiles also
have the potential to increase endurance, provide improved protection from ballistics, and do remote medical monitoring.
• Protective clothing for firefighters and industrial workers would seem to be a promising application for smart textiles, but EU-backed
research projects targeting this sector have failed to result in commercial products.
• The predominant use of smart textiles in fashion has been in creating clothing that lights up or changes color. There is a trend toward
creating more pieces that are available for higher volume production, including fashion that leverages the experience of the athletic
wear industry.
• Possible niche applications include smart gloves to increase worker safety and productivity, fabrics that serve as anti-tamper devices,
and novel lattice materials for football helmets that both protect and measure impact forces.
• Fabric-based pressure sensors in cars could add comfort and safety, especially if integrated with smart airbags. Smart textiles may
enter the home in the form of mattresses to monitor sleep and improve health or self-cleaning or self-repairing furniture. Other
concepts for the car and home, such as fabric-based touch screens, have been demonstrated but seem far away from commercial
use.
14. n-tech Research
PO Box 3840 Glen Allen, VA 23058
Email: info@ntechresearch.com
Web: www.ntechresearch.com
License Options
• BASIC (1-2 USERS) $3,995.00
• ADVANCED (UP TO 10 USERS) $4,995.00
• CORPORATE (UNLIMITED) $5,995.00
Other Options
• EXECUTIVE VERSION (SINGLE USER) $795.00
• EXECUTIVE VERSION (UNLIMITED) $1,295.00
• ACADEMIC/GOVERNMENT (CONTACT US)
- See more at: www.ntechresearch.com
Related Reports
Smart Coatings Markets 2016-2023
Shape Memory Polymers 2016-2023
Multifunctional Smart Coatings and Surfaces: 2016-2023
Markets for Smart Composites 2015-2022
Smart Structures in Aerospace: Market Opportunities: 2016-
2025
Smart Structures in the Construction Industry: A Market and
Technology Forecast – 2016 to 2025
Smart Textiles Markets 2016-2023
- See more at: www.ntechresearch.com
Purchase Options
n-tech Research PO Box 3840 Glen Allen, VA 23058
Phone: 804-938-0030
Email: info@ntechresearch.com
Web: www.ntechresearch.com