Graphene
has moved swiftly from the research laboratory to the marketplace, driven by
demand from markets where advanced materials are required. These include the
aerospace, automotive, coatings, electronics, energy storage, coatings and
paints, communications, sensor, solar, oil, and lubricant sectors.
The
exceptional electron and thermal transport, mechanical properties, barrier
properties and high specific surface area of graphene and combinations thereof
make it a potentially disruptive technology across a raft of industries. The
European Union is funding a 10 year 1.35 billion euro coordination action on
graphene. South Korea is spending $350 million on commercialization initiatives
and the United Kingdom is investing £50million in a commercialization hub.
Applications are coming onto the market for polymer composites and EMI
shielding coatings. Graphene-based conducting inks are also finding their way
into smart cards and radio-frequency identification tags.
Many of
the current and potential applications of carbon nanotubes may be taken by
graphene as it displays enhanced properties but with greater ease of production
and handling. In this regard, carbon nanotubes may be viewed as a stalking
horse for commercial applications of graphene. However, in an interesting
development, using carbon nanotubes and graphene in combination shows great
promise, allowing for greater consistency and higher concentrations of these
materials in the end product.
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Most
graphene producers currently produce graphene nanoplatelets and graphene oxide.
Within the last year graphene producers have increased production capabilities
considerably. XG Sciences, Angstron Materials and Vorbeck have increased, or
are planning to increase, their production capacities twenty-fold.
Producers
are generally small, start-up companies who have witnessed an explosion in
demand for their materials from a variety of industries. Companies such as IBM
and Samsung are pursuing applications for graphene in electronics and optics,
which are likely only to be realized in the medium to long-term. Most near-term
demand is for composites and coatings for application in the automotive,
plastics, coatings, construction, metals, batteries, aerospace and energy
markets.
What Does The Report Include?
- Comprehensive
quantitative data and forecasts for the global graphene market to 2020
- Market
penetration and revenue estimates for graphene in adhesives and sealants,
aerospace, automotive, biomedical and life sciences, catalysts, coatings and
paint, communications, composites, electronics, optoelectronics, photonics,
energy and sensors
- Qualititative
insight and perspective on the current market and future trends in end user
markets based on interviews with key exectutives
- End user
market analysis and technology roadmaps
- Financial
estimates for the markets graphene will impact
- Patent
analysis
- Tables
and figures illustrating graphene market size by tons and by end user demand
- Full
company profiles of graphene producers and application developers including
technology descriptions and end user markets targetted
- Profiles
of prominent research centres
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Table of Content
1 Executive Summary
2 Report Methodology
3 Introduction
4 Graphene Production Methods
5 Market Structure
6 Supply Chain
7 Graphene Patents And Publications
8 Graphene Production Volumes,
Prices And Market Demand
8.1 Prices
8.1 Prices
9 Markets And Applications
9.1 Adhesives and sealants
9.1.1 Commercialization timeline
9.1.2 Revenues
9.1.3 Application developers
9.2 Aerospace
9.2.1 Commercialization timeline
9.2.2 Revenues
9.2.3 Application developers
9.3 Automotive
9.3.1 Commercialization timeline
9.3.2 Revenues
9.3.3 Application developers
9.3.3 Application developers
9.4 Biomedical and life sciences
9.4.1 Commercialization timeline
9.4.2 Revenues
9.4.3 Application developers
9.5 Catalysts
9.5.1 Commercialization timeline
9.5.2 Revenues
9.5.3 Application developers
9.6 Coatings and paint
9.6.1 Commercialization timeline
9.6.2 Revenues
9.6.3 Application developers
9.7 Communications
9.7.1 Commercialization timeline
9.7.2 Revenues
9.7.3 Application developers
9.8 Composites
9.8.1 Commercialization timeline
9.8.2 Revenues
9.8.3 Application developers
9.9 Electronics, optoelectronics and data storage
9.9.1 Commercialization timeline
9.9.2 Revenues
9.9.3 Application developers
9.10 Energy
9.10.1 Commercialization timeline
9.10.2 Revenues
9.10.3 Application developers
9.11 Sensors
9.11.1 Commercialization timeline
9.11.2 Revenues
9.11.3 Application developers
9.1 Adhesives and sealants
9.1.1 Commercialization timeline
9.1.2 Revenues
9.1.3 Application developers
9.2 Aerospace
9.2.1 Commercialization timeline
9.2.2 Revenues
9.2.3 Application developers
9.3 Automotive
9.3.1 Commercialization timeline
9.3.2 Revenues
9.3.3 Application developers
9.3.3 Application developers
9.4 Biomedical and life sciences
9.4.1 Commercialization timeline
9.4.2 Revenues
9.4.3 Application developers
9.5 Catalysts
9.5.1 Commercialization timeline
9.5.2 Revenues
9.5.3 Application developers
9.6 Coatings and paint
9.6.1 Commercialization timeline
9.6.2 Revenues
9.6.3 Application developers
9.7 Communications
9.7.1 Commercialization timeline
9.7.2 Revenues
9.7.3 Application developers
9.8 Composites
9.8.1 Commercialization timeline
9.8.2 Revenues
9.8.3 Application developers
9.9 Electronics, optoelectronics and data storage
9.9.1 Commercialization timeline
9.9.2 Revenues
9.9.3 Application developers
9.10 Energy
9.10.1 Commercialization timeline
9.10.2 Revenues
9.10.3 Application developers
9.11 Sensors
9.11.1 Commercialization timeline
9.11.2 Revenues
9.11.3 Application developers
10 Graphene Producers, Distributors
And Application Developers
11 Prominent Graphene Research
Centers
References
Tables & Figures
For
more details contact Mr. Priyank Tiwari: sales@rnrmarketresearch.com / +18883915441
Website:
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