Organic Electronics Made Possible by Advanced Printing Techniques
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Transcript of Organic Electronics Made Possible by Advanced Printing Techniques
Advanced Printing Techniques Enable
the Development of the Next Generation
of Organic Electronics
Research PREVIEW for
Novel Printing Techniques for Organic Electronics
D56A-TI 2
The Full Analysis Features the Following Content
Topic Slide No.
Executive Summary 4
Innovation Landscape 10
Development of Printing Technologies 11
Printing Technologies for Organic
Electronics- Overview 12
Printing Techniques Landscape 13
Industry Value Chain 19
Key Stakeholder Activities 20
Future Applications-Year of Impact 21
Market Projections 22
Drivers 23
Challenges 24
Printing Technologies and Applications 25
Topic Slide No.
Innovation Indicators 26
Patent Landscape 27
Funding Scenario 29
M&A Trends 30
Market Implications of Innovation 31
Business Opportunities 37
Investment Opportunities 38
Convergence Opportunities 39
Strategic Outlook 40
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Key Findings
Year of Impact
Market Potential
IP Activity
Printing technologies has been widely adopted in consumer electronics products.
Currently this technology is used in OLED and photovoltaics. Different printing
technologies and development in functional fluid and inks are making inroads into this
sector and are expected to be adopted on a large scale by 2020.
The printing technology market is growing at a rapid pace, and this trend is expected to
increase in the coming years. The other factor fuelling this growth is the demand from new
market segments. The consumer electronics segment will remain the major source of
revenue for the industry.
The patent landscape is dominated by Samsung and LG, followed by Philips. South Korea
and China leads the pack with the maximum number of patents filed, followed by USA.
Companies are building a strong IP portfolio with patents related to advancement in
printing technologies. This is seen as one of the strategies employed by the companies to
maintain their competitive position in the market.
Funding
Government support program plays an important role in funding the research and
development activities of various innovations in printing technology. Currently, funding is
mainly focused on developing this technology to meet the growing needs of the customer
and making devices more feasible for integration into various consumer products.
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Key Findings (continued)
Breadth of Industries
Potential Points of
Convergence
Printing technology has been implemented in a large number of products in the consumer
electronics market. In the consumer electronics arena, there has been prolific adoption of
this technology in the OLED segment. Cross industrial adoption of this technology is also
expanding.
In consumer electronics, there has been an increase in demand for higher efficiency, and
functionality. Printing technology is seen as a solution to address these growing user
needs. This technology has the potential to open up or expand the industrial, automotive,
commercial, and healthcare sectors, where it could be adopted on a large scale.
Implication of Innovations
Printing techniques are playing a vital role in organic electronics market. Several
universities, consortiums and companies are working towards advancing and developing
printing techniques for atomic layer deposition, fluropolymer coating, mass production and
customization. Few key developers include University of Texas, Northwestern University,
Beneq, Kateeva, Japanese Consortium.
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Technology Snapshot Printing Techniques for Organic Electronics
Overv
iew
M
ark
et
Imp
act
Sig
nif
ican
ce
• Printing is a manufacturing process used to produce various electronic
equipment, multi-material parts, and objects.
• To fabricate organic substrates, various printing techniques are used,
such as, inkjet printing, gravure, flexography and many more.
• Adoption of printing techniques in organic electronics is increasing
because of the requirement of customized products and the increasing
attention received by the organic materials segment.
• Using printing techniques to manufacture organic electronics enables
rapid manufacturing and low-waste manufacturing of cost-effective
products that can be customized further based on end-user
requirements.
• With the help of printing, it is possible to develop a manufacturing
environment that is agile. This helps to further reduce approximately
70% of time for production.
• Market capability is growing in automotive, medical, consumer
electronics, packaging, and smart textiles.
• According to varied industrial sources by 2025, the market for printing
organic electronics is expected to be approximately US $190 billion.
• Wearable applications and consumer electronics are expected to be the
areas for wider usage of the technology, followed by applications in
automotive, building, and architecture.
Technology Maturity 0
1
2 3
4
5
Technology Adoption 0
1
2 3
4
5
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Categorization of Printing Techniques Landscape
Printing
Techniques
Large Area
Digital
Stamping/
Embossing
Others
Letter
Press
Indirect
Gravure
Gravure
Dip Pen
Lithography
Screen
Printing Flat
Printing
Thermography
Relief
Gravure
Thermal Ink
Transfer
Steel
Engraving
Thermal Ink
Sublimation
Pad
Printing
Electrography
Aerosol Jet
Printing
Micro Contact
Nanolithography
Laser
Transfer
Step &
Repeat
Lithography
Stencil
Lithography
R2R
Lithography
Embossing
Cold Foil
Stamping
Hot Foil
Stamping
Foil
Stamping
Hot
Embossing
Cold
Embossing
Electrophotography/
Xerographie
Magnetography
Offset
Waterless
Offset
Rotating
Screen Flat Screen Typographic
Letterset
Flexographic
Direct
Thermography
Inkjet
Piezo
Binary uDot
Continuous
Hertz
Static
Drop on
Demand
Thermal
Side
Shooter
Multiple
Top
Shooter
Acoustic
Squeeze
Bend
Shear
Push
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Inkjet Printing for Coating Carbon Nanotubes - University
of Texas and Northwestern University
Innovation Market Implication Commercialization &
Monetization Models
Flexible Electronics
Wearable Electronics
Energy
Near- Medium- Long- Term
• R&D for implementing with
complex circuit.
• Volume production with inkjet
printing for flexible electronics.
• Customization of products
Use of inkjet printing
technology for fluoropolymer
(PVDF-TrFE) coating single-
walled carbon nanotube
transistor and ring oscillator
circuits.
Implication
Device
PVDF-TrFE
Government
Fluoropolymer
Coating
Drivers
US Office of Naval research is funding the
project for R&D and commercialization.
Faster and better performing circuit,
with reduction in power consumption.
A low-cost solution that helps to
achieve higher resolution with inkjet
printing.
It is the most effective coating technique for
printed electronics.
Near-term:
Flexible Displays
such as OLED
Medium-term:
Smart Textiles
Long-Term: Solar
energy harvesting
Plans
o Highly focused on printed
electronics market.
oTargeting flexible and
wearable electronics industry.
o Expected to gain entry into
US Navy applications primarily.
Impact
D56A-TI 8
Interested in Full Access? Connect With Us
Ariel Brown Corporate Communications
(210) 247.2481
Research Authors
Sitanshu
Shastri
Industry Analyst
Technical
Insights
Sumit Kumar
Pal
Senior Research
Analyst
Technical
Insights
Kasthuri
Jagadeesan
Program Manager
Technical Insights
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D56A-TI 10
Industry Convergence Comprehensive Industry Coverage Sparks Innovation Opportunities
Automotive &
Transportation
Aerospace & Defense Measurement & Instrumentation
Information & Communication Technologies
Healthcare Environment & Building Technologies
Energy & Power Systems
Chemicals, Materials & Food
Electronics & Security
Industrial Automation & Process Control
Automotive Transportation & Logistics
Consumer Technologies
Minerals & Mining