HOME Top Market Reports Graphene Electronics Market by Materials (PV, Electronics), Devices (Super capacitors, Transistors, Spintronics, Sensors, ICs & Chips, Lenses), Products (Computing, Consumer, Memory, Display), Developments (Nanotubes & Ribbons, Fullerenes) & Geography - Analysis & Forecast 2013 to 2020

Graphene Electronics Market by Materials (PV, Electronics), Devices (Super capacitors, Transistors, Spintronics, Sensors, ICs & Chips, Lenses), Products (Computing, Consumer, Memory, Display), Developments (Nanotubes & Ribbons, Fullerenes) & Geography - Analysis & Forecast 2013 to 2020

By: marketsandmarkets.com
Publishing Date: December 2014
Report Code: SE 3035

 

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Graphene is an upcoming conducting material with the impending to substitute traditional electrode materials such as Indium tin oxide (ITO) in electrical and optical devices. Graphene is the strongest material ever found, it is harder than diamond and 300 times harder than steel, yet it is also stretchable like rubber and one of the thinnest materials in the world. This and several other features that make Graphene the most preferred material for applications such as extremely strong composite materials, flexible displays and nano-transistors and so on.

Being ultra-light yet nearly indestructible also makes Graphene perfect for the electronics, aerospace and automotive industries. Its conductivity - a measure of how fast electrons can move through it, has also generated tons of interest by the semiconductor industry. The growing interest of educational institutes, research associations and companies in Graphene will boost the market in coming years.  Most of the private and public firms are making huge amount of investments and funding in Graphene electronics market. For example, in early 2013, European Union (EU) announced the investment of $1.57 billion in Graphene research. Addition to this, the major electronics players such as Samsung Electronics Co. Ltd (South Korea), IBM (U.S.) and Xerox (U.S.) among others are competing with each other in the race of Graphene patents worldwide, in which Samsung is leading with 210 Graphene related patents globally.

The global Graphene electronics market is expected to grow at a CAGR of 46.8% from 2014 to 2020 and the overall Graphene electronics market in 2013 was around $58.53 million, which is expected to reach to $1512.10 Million in 2020. In terms of technology, CVD (Chemical Vapor Deposition) process accounted for the largest market revenue in 2013 i.e. 58% of the revenue. The industry is also witnessing the spree of other technology mapping such as graphite exfoliation, scotch tape method, synthesis on silicon carbide (SiC) and so on.

The report presents a detailed insight on the current Graphene electronic industry, and identifies key trends of various segments of the market with in-depth quantitative and qualitative information. The report segments the global Graphene electronics market on the basis of types of materials, products and devices, technologies, application, and geography. Further, it contains revenue forecasts, and trend analysis with respect to the market’s time-line. Following is the detailed explanation of each segment.

The major players in Graphene electronics market are AMG Advanced Metallurgical Group (Netherlands), Applied Graphene Materials PLC (U.K.), Grafoid Inc. (Canada), GrafTech International Ltd. (U.S.), Graphene Frontiers LLC (U.S.), Graphene Laboratories Inc. (New York), Graphene Square, Inc. (South Korea), Graphenea SA (Spain), Haydale Limited (U.K.) and Samsung Electronics Co., Ltd. (South Korea) among others.

Market by types of Materials, Products and Devices:

The Graphene electronics market is divided on the basis of materials, products and devices. The material market divided into five major segments; Structural Materials, Electronic (Computing, Memory & Storage) Materials, Nanotechnology Materials, Electric & Conducting Materials and Photovoltaic Materials.

The device market divided into eight major segments; Transistors (FETs & others), Capacitors, Sensors (NEMS & so on) ICs & Chips, Electrodes, Lenses, Spintronics and Pseudo Spintronics.

The product market is divided into seven major segments; Computing &Consumer Electronic Products, Memory & Storage Products, Display &Touch Products, Wearable Technology Products, Electric & Photovoltaic Products (Solar/PV Cells, Conductive Films & so on), Nanotechnology Products and Other Products (Antennas, RFID, Imaging & so on).

Market by Technology:

The Graphene electronics market is divided into three major segments; CVD (Chemical vapor Deposition), graphite ore and other (synthesis on SiC, Scotch tape method, From CO2and so on) methods. The CVD process is again segmented into thermal and plasma CVD process.

Market by Applications:

The Graphene electronics market considers various aspects of application segments and divided into Computing Application Sector, Data Storage Application Sector, Consumer Application Sector, Communications Application Sector, Thermal Management Application Sector, Solar, PV & Green-Tech Application Sector, Sensing Application Sector, Display & Touch Application Sector and Other major application Sectors.

Market by Geography:

The report discusses the Graphene electronics market in four major geographical regions namely: North America, Europe, Asia–Pacific, and Rest of the World (RoW). Geographical analysis in the report contains the in-depth classification into the U.S. and others for North America, U.K., Germany, and others for Europe, and China, Japan, South Korea, India, and others for Asia-Pacific, and Latin America, the Middle East, and others in ROW.

The report also identifies the drivers, restraints, opportunities, current market trends, winning imperatives, and burning issues of the global Graphene electronics market. Apart from the market segmentation, the report also includes the critical market data and qualitative information for each products type along with qualitative analysis such as Porter’s five force analysis, market time-line analysis, market investment analysis, industry breakdown analysis and value chain analysis.

Table Of Contents
 
1 Introduction (Page No. - 19)
  1.1 Objectives of The Study
  1.2 Market Definition
  1.3 Study Scope
      1.3.1 Markets Covered
      1.3.2 Market by Materials, Devices, & Products Type
      1.3.3 Market by Technology
      1.3.4 Market by Application
      1.3.5 Geographic Scope
  1.4 Years Considered For the Study
  1.5 Currency
  1.6 Limitations
  1.7 Stakeholders

2 Research Methodology (Page No. - 25)
  2.1 Research Data
      2.1.1 Secondary Data
            2.1.1.1 Key Data from Secondary Sources
      2.1.2 Primary Data
            2.1.2.1 Key Data from Primary Sources
            2.1.2.2 Key Industry Insights
            2.1.2.3 Breakdown of Primaries
  2.2 Factor Analysis
      2.2.1 Introduction
      2.2.2 Demand-Side Analysis
            2.2.2.1 Investments Made By Educational Institutes, Government and, Companies In The Graphene Market
            2.2.2.2 Increasing Use of Graphene in Electronics Such As Smart Phones, Tablets, Batteries, And So On
            2.2.2.3 Increasing Number of Graphene Patents Worldwide
  2.3 Market Size Estimation
      2.3.1 Bottom-Up Approach
      2.3.2 Top-Down Approach
  2.4 Market Breakdown and Data Triangulation

3 Executive Summary (Page No. - 36)

4 Premium Insights (Page No. - 39)
  4.1 Attractive Opportunities In The Graphene Materials Market
  4.2 Graphene Electronics Market – Materials, Products, and Devices
  4.3 Graphene Materials Market Analysis
  4.4 Graphene Products Market Analysis
  4.5 Graphene Devices Market Analysis
  4.6 Graphene Electronics Market Share– By Application and Geography
  4.7 North America Commands Over 50% Share of The Graphene Electronics Market
  4.8 Graphene Electronics Market, By Technology
  4.9 Graphene Market – Geographic Analysis
  4.10 Market Size Of North America Vs APAC Countries – Graphene Electronics Market
  4.11 Life Cycle Analysis, By Geography

5 Market Overview (Page No. - 50)
  5.1 Introduction
  5.2 Evolution
  5.3 Market Segmentation
      5.3.1 Graphene Electronics Market, By Technology
      5.3.2 Graphene Electronics Market, By Material, Device, and Product Type
      5.3.3 Graphene Electronics Market, By Application
  5.4 Market Dynamics
      5.4.1 Drivers
            5.4.1.1 Superior Performance & Functionalities
            5.4.1.2 Growing Interest of Educational Institutes and Research Associations In Terms Of Investments And Research Activities
            5.4.1.3 Well-Established Industry Relationships of Commercial Players
            5.4.1.4 Growing Support from Ecosystems Of Other Materials
            5.4.1.5 Stable Demand from Non Ultra High-End Applications
            5.4.1.6 Electronics and Semiconductor Sectors to Contribute The Maximum Value
            5.4.1.7 Huge Rise in Demand Levels in Diverse Technologies (Such As Green Technology, Smart Electricity)
            5.4.1.8 High Level Of Focus On Using Graphene For Emerging Fields
      5.4.2 Restraints
            5.4.2.1 High Cost Factor
            5.4.2.2 Lack of Required Infrastructure
            5.4.2.3 High Level of New Entrants
      5.4.3 Opportunities
            5.4.3.1 Business Opportunity in Developed Economies
            5.4.3.2 Diverse New Product Requirements
            5.4.3.3 Display and Touch Applications Are Expected To Be the Major Revenue Sources For The Graphene Market
            5.4.3.4 Opportunities for Graphene in Various Applications (Such As Fields Of High Performance Advanced Computing, Memory And Data Storage Applications)
            5.4.3.5 Novel Graphene Products Have New Opportunities In The Future
      5.4.4 Challenges
            5.4.4.1 Available Substitutes in the Market
      5.4.5 Burning Issues
            5.4.5.1 Diversity among Key Players and High Level of Fragmentation
            5.4.5.2 Increasing Investments in R&D Activities

6 Industry Trends (Page No. - 64)
  6.1 Introduction
  6.2 Supply-Chain Analysis
  6.3 Industry Trends
      6.3.1 Market Time Line
      6.3.2 Push and Pull- Force Analysis
  6.4 Porter’s Five Forces Analysis
      6.4.1 Threat from New Entrants
      6.4.2 Threat from Substitutes
      6.4.3 Bargaining Power of Suppliers
      6.4.4 Bargaining Power of Buyers
      6.4.5 Degree of Competition
  6.5 Strategic Benchmarking
      6.5.1 Major Strategies Adopted By the Key Players

7 Market By Technology (Page No. - 77)
  7.1 Introduction
  7.2 Market by Production Method
      7.2.1 CVD (Chemical Vapor Deposition) Graphene
            7.2.1.1 Thermal CVD
            7.2.1.2 Plasma CVD
      7.2.2 Graphite Exfoliated Graphene
            7.2.2.1 Thermal Exfoliation
            7.2.2.2 Liquid Phase Exfoliation (LPE)
      7.2.3 Other Methods
            7.2.3.1 Synthesis on Silicon Carbide
            7.2.3.2 Synthesis by Scotch- Tape Method
            7.2.3.3 New Innovations: Graphene from Co2 & So On
      7.2.4 Comparison of Different Production Methods
            7.2.4.1 CVD Graphene and LPE Graphene to Emerge As the Most Widely Used Material

8 Materials, Devices & Products Market, By Type (Page No. - 97)
  8.1 Introduction
  8.2 Graphene Materials Market
      8.2.1 Structured Materials
      8.2.2 Electronic (Computing, Memory, Storage Materials)
      8.2.3 Nanotechnology Materials
      8.2.4 Electric & Conducting Materials
      8.2.5 Photovoltaic Materials
  8.3 Graphene Devices Market
      8.3.1 Transistors (Fets & Others)
      8.3.2 Capacitors
            8.3.2.1 Super Capacitors: A Multi-Million Future
      8.3.3 Sensors (NEMS & So On)
      8.3.4 ICS & Chips
      8.3.5 Electrodes
      8.3.6 Lenses
      8.3.7 Spintronics
            8.3.7.1 Pseudo Spintronics
  8.4 Graphene Products Market
      8.4.1 Computing and Consumer Electronics Products
      8.4.2 Memory & Storage Products
      8.4.3 Display & Touch Products
      8.4.4 Wearable Technology Products
      8.4.5 Nanotechnology Products
      8.4.6 Electric & Photovoltaic Products (Solar/PV Cells, Conductive Films & So On)
      8.4.7 Other Products

9 Market By Application (Page No. - 126)
  9.1 Introduction
  9.2 Computing Application Sector
      9.2.1 Graphene Switches Computing Applications
      9.2.2 Graphene Nano-Ribbons Computing Applications
      9.2.3 Graphene Transistors Computing Applications
      9.2.4 Graphene Nano-Mesh Computing Applications
  9.3 Data Storage Application Sector
      9.3.1 Spin-Valve Memory Applications
      9.3.2 Nano-Cable Memory Applications
      9.3.3 Nano-Ribbon Memory Applications
      9.3.4 Oxide-Based Memory Applications
  9.4 Consumer Application
      9.4.1 Graphene Consumer Battery Applications
      9.4.2 Graphene Wearable Technology & Smart Packaging Applications
  9.5 Communication Application
      9.5.1 Photo-Detection Applications
      9.5.2 RF Applications
      9.5.3 Radar and Satellite Communication Applications
  9.6 Thermal Management Application Sector
      9.6.1 Thermal Interfaces Applications (Graphene Nano-Platelets)
      9.6.2 Graphene Heat Spreader and Heat Sink Applications
  9.7 Solar, Photovoltaic (PV), And Green Technology Application Sector
      9.7.1 Flexible/Organic Photovotaic Cells Applications
      9.7.2 Polymer Photovoltaic Cells Applications
      9.7.3 Green Technology Applications
  9.8 Sensing Application
      9.8.1 Chemical and Gas Sensing Applications
      9.8.2 Electrochemical Sensing Applications
      9.8.3 Mass Sensing Applications
      9.8.4 Nano-Pore Sensing Applications
      9.8.5 Radiation Sensing Applications
      9.8.6 Biosensing Applications (DNA-Sensitized Graphene Vapor Sensing)
  9.9 Display & Touch Application Sector
      9.9.1 Roll-To-Roll Display & Touch Applications
      9.9.2 Spray Coating Applications
      9.9.3 Transfer Printing Applications
      9.9.4 Electro-Phoretic Deposition Applications
      9.9.5 Hybrid Graphene-Carbon Nanotube Films Applications
  9.10 Other Applications
       9.10.1 Graphene Polymer Structural Applications
       9.10.2 Desalination & Waste-Water Applications

10 Geographic Analysis (Page No. - 152)
   10.1 Introduction
   10.2 North America
        10.2.1 U.S.
        10.2.2 Canada
        10.2.3 Rest of North America
   10.3 Europe
        10.3.1 U.K.
        10.3.2 Germany
        10.3.3 Spain
        10.3.4 Russia
        10.3.5 Rest of the Europe
   10.4 Asia-Pacific
        10.4.1 China
        10.4.2 Japan
        10.4.3 South Korea
        10.4.4 India
        10.4.5 Australia
        10.4.6 Rest of The APAC
   10.5 Row
        10.5.1 Latin America
        10.5.2 Middle East

11 Competitive Landscape (Page No. - 168)
   11.1 Overview
   11.2 Market Share Analysis, Graphene Electronics Market
   11.3 Competitive Situation And Trends
        11.3.1 New Product Launches/New Product Developments
        11.3.2 Partnerships, Contract, Agreements, Joint Ventures, and Collaborations
        11.3.3 Mergers and Acquisitions
        11.3.4 Expansions
        11.3.5 Other Developments

12 Company Profiles (Overview, Products and Services, Financials, Strategy & Development)* (Page No. - 178)
   12.1 Introduction
   12.2 AMG Advanced Metallurgical Group N.V.
   12.3 Applied Graphene Materials Plc
   12.4 Grafoid Inc.
   12.5 Graftech International Holdings Inc.
   12.6 Graphene Frontiers LLC
   12.7 Graphene Laboratories Inc.
   12.8 Graphene Square, Inc.
   12.9 Graphenea SA
   12.10 Haydale
   12.11 Samsung Electronics Co., Ltd.

*Details On Overview, Products And Services, Financials, Strategy & Development Might Not Be Captured In Case Of Unlisted Companies.

13 Appendix (Page No. - 207)
   13.1 Insights of Industry Experts
   13.2 Discussion Guide
   13.3 Introducing RT: Real Time Market Intelligence
   13.4 Available Customizations
   13.5 Related Reports
 
 
List Of Tables (71 Tables) 
 
Table 1 Increasing Investments And Patents Is Propelling the Growth of The Graphene Electronics Market
Table 1 High Level of New Entrants Will Restraint the Market Growth
Table 2 Wide Scope of Application Provides Huge Growth Avenues for Players In The Graphene Electronics Market
Table 3 Available Substitutes In The Market Constitute A Major Challenge For The Graphene Electronics Market
Table 4 Investments and Patents Related To Graphene Is the Leading Trend Among The Key Market Players
Table 5 Global Graphene Technology Market Size, By Type, 2013-2020 ($Million)
Table 6 Global Graphene Technology Market Size, By CVD Type, 2013-2020 ($Million)
Table 7 Global Graphene CVD Market Size, By Geography, 2013-2020 ($Million)
Table 8 Global Graphene Market Size For CVD, By North America,2013-2020 ($Million)
Table 9 Global Graphene Market Size for CVD by Europe, 2013-2020 ($Million)
Table 10 Global Graphene Market Size for CVD, By APAC, 2013-2020 ($Million)
Table 11 Global Graphene Market Size for CVD, By Row, 2013-2020 ($Million)
Table 12 Global Graphene Market Sizefor Thermal CVD Type, By Geography,2013-2020 ($Million)
Table 13 Difference Between Thermal And Plasma CVD Characteristics
Table 14 Global Graphene Market Size for Plasma CVD Type, By Geography,2013-2020 ($Million)
Table 15 Global Graphene Technology Market Size, By Exfoliation Type,2013-2020 ($Million)
Table 16 Global Graphene Market Size for Graphite Exfoliated, By Geography,2013-2020 ($Million)
Table 17 Global Graphene Market Size for Thermal Exfoliated, By Geography,2013-2020 ($Million)
Table 18 Global Graphene Market Size for Liquid Phase Exfoliation, By Geography, 2013-2020 ($Million)
Table 19 Global Graphene Technology Market Size, By Other Production Method Type, 2013-2020 ($Million)
Table 20 Global Graphene Market Size for Other Technology, By Geography,2013-2020 ($Million)
Table 21 Global Graphene Market Size For Synthesis From Silicon Carbide, By Geography, 2013-2020 ($Million)
Table 22 Global Graphene Market Size for Scotch-Tape Method, By Geography, 2013-2020 ($Million)
Table 23 Global Graphene Market Size for New Innovation - Production Methods, By Geography, 2013-2020 ($Million)
Table 24 Comparison of Graphene Production Methods
Table 25 Global Graphene Technology Market Size, By Material, Product, and Device, 2013-2020 ($Million)
Table 26 Global Graphene Material Market Size, By Type, 2013-2020 ($Million)
Table 27 Global Graphene Material Market Size, By Type (Thousand Tons),2013-2020
Table 28 Global Gaphenen Material Market Size, By Type, (Millon SQM), 2013-2020
Table 29 Global Graphene Structural Material Market Size, 2013-2020
Table 30 Global Graphene Electronics Material Market, 2013-2020
Table 31 Global Graphene Nanotechnology Material Market Size, 2013-2020
Table 32 Global Graphene Electric & Conducting Material Market Size, 2013-2020
Table 33 Global Graphene Photovoltaic Material Market Size, 2013-2020
Table 34 Graphene Devices Market, By Type, 2013-2020 ($Million)
Table 35 Global Graphene Devices Market, By Type (Million Units), 2013-2020
Table 36 Global Graphene Device Market Size, By Transistor Devices, 2013-2020 ($Million)
Table 37 Global Graphene Device Market Size, By Supercapacitors Devices, 2013-2020 ($Million)
Table 38 Global Graphene Device Market Size, By Sensors Devices, 2013-2020 ($Million)
Table 39 Global Graphene Device Market Size, By IC And Chips Devices,2013-2020 ($Million)
Table 40 Graphene Electrode Based Other Devices Market, 2013-2020 ($Million)
Table 41 Global Graphene Device Market Size, By Lenses Device, 2013-2020 ($Million)
Table 42 Graphene Devices Market, By Spintronics Device, 2013-2020 ($Million)
Table 43 Global Graphene Products Market Size, By Type, 2013-2020 ($Million)
Table 44 Global Graphene Products Market Size, By Type of Product (Million Units), 2013-2020
Table 45 Global Graphene Product Market Size, By Computing and Consumer Electronics Product, 2013-2020
Table 46 Global Graphene Product Market Size, By Memory and Storage Product, 2013-2020
Table 47 Global Graphene Product Market Size, By Display and Touch Product, 2013-2020
Table 48 Global Graphene Product Market Size, By Wearable Technology Product, 2013-2020
Table 49 Global Graphene Product Market Size, By Nanotechnology Product,
Table 50 Global Graphene Product Market Size, By Electric and Photovoltaic Product, 2013-2020
Table 51 Global Graphene Product Market Size, By Other Product Type, 2013-2020 125
Table 52 Global Graphene Technology Market Size, By Application ($Million), 2013 - 2020 128
Table 53 Global Graphene Technology Market Size, By Computing Application ($Million), 2013 - 2020
Table 54 Global Graphene Technology Market Size, By Data Storage Application ($Million), 2013 - 2020
Table 55 Global Graphene Technology Market Size, By Consumer Application ($Million), 2013 - 2020
Table 56 Global Graphene Technology Market Size, By Communication Application ($Million), 2013 - 2020
Table 57 Global Graphene Technology Market Size, By Thermal Management Application ($Million), 2013 - 2020
Table 58 Global Graphene Technology Market Size, By Solar, Photovoltaic, & Green Technology Application Type ($Million), 2013 - 2020
Table 59 Global Graphene Technology Market Size, By Sensing Application ($Million), 2013 - 2020
Table 60 Global Graphene Technology Market Size, By Display and Touch Application ($Million), 2013 - 2020
Table 61 Global Graphene Technology Market Size, By Other Application ($Million), 2013 - 2020
Table 62 Global Graphene Technology Market Value, By Geography ($Million), 2013-2020 154
Table 63 North America: Graphene Technology Market Value, By Country ($Million), 2013-2020
Table 64 Europe: Graphene Technology Market Value, By Country, 2013-2020 ($Million) 159
Table 65 Apac: Graphene Technology Market Value, By Country, 2013-2020 ($Million) 163
Table 66 Row: Graphene Technology Market Size, By Country, 2013-2020 ($Million) 166
Table 67 New Product Launches, 2011–2014
Table 68 Partnerships, Contract, Agreements, and Joint Ventures
Table 69 Mergers and Acquisit Ions
Table 70 Expansions
Table 71 Other Developments
 
 
List Of Figures (109 Figures) 
 
Figure 1 Markets Covered
Figure 2 Research Design
Figure 3 Graphene Industry
Figure 4 Increasing Patenting and Publication Activities from Universities And Research Institutes
Figure 5 Benefits of Using Graphene In Electronic Gadgets
Figure 6 Samsung Leads the Race for Graphene Related Patents
Figure 7 Increasing Number Of Patents Between Universities And Multi-Nationals
Figure 8 Bottom-Up Approach
Figure 9 Top-Down Approach
Figure 10 Graphene Electronics Market Snapshot (2013 Vs 2020): Photovoltaic Materials Expected To Lead the Market In 2020
Figure 11 Graphene Electronics Market, By Application Type, 2015
Figure 12 Global Graphene Electronics Market Share, By Geography, 2013
Figure 13 Graphene Materials Market to Offer Huge Growth Opportunities In Future
Figure 14 Analysis Of Graphene – Materials, Products, And Devices Market,2013-2020
Figure 15 Graphene Materials Market
Figure 16 Graphene Products Market
Figure 17 Graphene Devices Market
Figure 18 Top Applications And Regions In The Graphene Electronics Market
Figure 19 APAC And North America Are Expected To Witness the Highest Growth Rate
Figure 20 CVD Process Accounts For ~50% of The Graphene Technology Market
Figure 21 APAC Region To Show The Highest Growth Rate
Figure 22 U.S. Expected To Have the Highest Market Size By 2020
Figure 23 North America And APAC Are the Fastest Growing Regions
Figure 24 Progressive Stages: Graphene Industry
Figure 25 Investments and R&D Activities To Play A Major Role In The Graphene Electronics Market
Figure 26 Graphene Electronics Market Segmentation, By Technology
Figure 27 Graphene Electronics Market Segmentation, By Material, Device, and Product Type
Figure 28 Graphene Electronics Market Segmentation, By Application
Figure 29 Increasing Investments and Patents Related To Graphene Electronics Is Driving the Demand In The Market
Figure 30 Supply Chain Analysis
Figure 31 Life-Cycle Analysis Of Graphene Products, 2015 – 2020
Figure 32 Graphene Technology Penetration – Push & Pull–Force Analysis
Figure 33 Porter’s Five Forces Analysis
Figure 34 Porter’s Five Forces Analysis (2013): Impact Analysis
Figure 35 Threat from New Entrants: Impact Analysis
Figure 36 Threat from Substitutes: Impact Analysis
Figure 37 Bargaining Power of Suppliers: Impact Analysis
Figure 38 Bargaining Power of Buyers: Impact Analysis
Figure 39 Degree of Competition: Impact Analysis
Figure 40 Agreements, Contracts, and Other Developments Were The Major Strategies Adopted By Industry Players
Figure 41 Global Graphene Technology Market, By Production Method
Figure 42 Applications Of Different Production Methods
Figure 43 Chemical Vapor Deposition (CVD) Method to Lead The Global Graphene Technology Market, By Production Type, Till 2020
Figure 44 Schematic Of CVD Process
Figure 45 Thermal CVD Graphene to Lead the Global Graphene Technology Market, By CVD Production Type, Till 2020
Figure 46 Thermal CVD Process
Figure 47 Plasma CVD Process
Figure 48 Graphene Production From Graphite Ore
Figure 49 Liquid Phase Exfoliated (LPE) Graphene To Lead Global Graphene Technology Market, By Exfoliation Type, Till 2020
Figure 50 Exfoliation Method to Produce Graphene
Figure 51 Scotch-Tape Method To Lead Global Graphene Technology Market, By Other Production Type, Till 2020
Figure 52 Comparison Of Graphene Production Methods
Figure 53 Global Graphene Technology Market Segmentation by Materials, Devices, And Products
Figure 54 Graphene Devices Holds the Major Share in the Global Graphene Electronics Market, (2013-2020)
Figure 55 Global Graphene Technology Market Segmentation, By Material Type
Figure 56 Photovoltaic Materials Likely To Lead the Graphene Material Market Till 2020 101
Figure 57 Graphene Electronics Market Segmentation, By Devices
Figure 58 Electodes Based Other Devices Expected To Lead the Graphene Devices Market Till 2020
Figure 59 Graphene Electronics Market Segmentation, By Products Type
Figure 60 Electric & Photovoltaic Products Expected To Lead the Graphene Products Market, By Type, Till 2020
Figure 61 Graphene Electronics Market, By Application
Figure 62 Solar, PV, & Green-Tech Application Sector Expected to Lead The Application Market Till 2020
Figure 63 Graphene Electronics Markets, By Computing Application
Figure 64 Graphene Transistor Applications Expected To Lead the Computing Application Market Till 2020
Figure 65 Graphene Electronics Market, By Data Storage Application
Figure 66 Graphene Nano-Ribbon Memory Applications Expected To Lead the Data Storage Application Market Till 2020
Figure 67 Graphene Electronics Market, By Consumer Application
Figure 68 Graphene Consumer Electronic Battery Applications Expected To Hold a Major Share Of Consumer Application Till 2020
Figure 69 Graphene Electronics Market, By Communication Application
Figure 70 Graphene Radar & Satellite Communication Applications Expected To Lead In Terms Of Communication Application Till 2020
Figure 71 Graphene Electronics Market, By Thermal Management Application
Figure 72 Graphene Heat Spreader & Heat Sink Applications Expected To Hold the Major Market Share Of Thermal Management Application Till 2020
Figure 73 Graphene Electronics Market by Solar, Photovoltaic, & Green Technology Application
Figure 74 Graphene Green-Technology Applications Expected To Lead the Solar, PV, & Green Tech Application Till 2020
Figure 75 Graphene Electronics Markets, By Sensing Application
Figure 76 Graphene Nano-Pore Sensing Applications Expected To Lead the Sensing Application Till 2020
Figure 77 Graphene Electronics Market, By Display and Touch Application
Figure 78 Graphene Electro-Phoretic Deposition Applications Is Expected To Hold the Major Share Of Display & Touch Application Till 2020
Figure 79 Graphene Electronics Market, By Other Application
Figure 80 Graphene Polymer Structural Applications Expected To Lead the Other Applications Till 2020
Figure 81 Geographic Snapshot (2013) – The Graphene Material Market Is Growing Rapidly
Figure 82 North American Region Is Likely To Play a Major Role In The Graphene Electronics Market
Figure 83 North America Is Expected To Hold the Major Market Share Of The Graphene Electronics Market By 2020
Figure 84 North America Market Snapshot: Demand Is Likely To Be Driven By the Increase in Investments And R&D Activities
Figure 85 U.S. Expected To Dominate the North American Market Till 2020
Figure 86 U.S. And China Were the Front-Runners in The Race For Filing Graphene Related Patents In 2013
Figure 87 Spain Expected To Lead the Graphene Electronics Market Till 2020
Figure 88 Germany and Spain Expected To Lead The Graphene Electronics Market Till 2020
Figure 89 Asia-Pacific Graphene Electronics Market Snapshot - China Is the Most Lucrative Market
Figure 90 China Is Expected To Lead the Graphene Electronics Market in APAC Till 2020 163
Figure 91 China Likely To Emerge As The Second Largest Market For Graphene, By 2020 ($Million3)
Figure 92 Latin America Is Expected To Lead the Graphene Electronics Market in The Row Till 2020
Figure 93 Companies Adopted Agreements and Contracts as the Key Growth Strategy Between 2011 And 2013
Figure 94 Samsung Electronic Co. And Applied Graphene Materials Plc. Grew At the Highest Rate Between 2010 And 2013
Figure 95 Graphene Electronics Market Share, By Key Player, 2013
Figure 96 Market Evolution Framework- Increasing Number of Agreements and Contracts Has Fueled Growth And Innovation
Figure 97 Battle for Market Share: Agreements, Joint Ventures, and Collaborations Was the Key Strategy
Figure 98 Geographic Revenue Mix of Top 5 Market Players
Figure 99 Competitive Benchmarking Of Key Market Players (2010-2013): Samsung Is the Market Leader, Due To The Highest Number Of Graphene Patents
Figure 100 AMG Advanced Metallurgical Group N.V.: Business Overview
Figure 101 AMG Advanced Metallurgical Group N.V.: SWOT Analysis
Figure 102 Applied Graphene Materials Plc: Business Overview
Figure 103 Applied Graphene Materials: SWOT Analysis
Figure 104 Graftech International Holdings, Inc.: Business Overview
Figure 105 Graftech International Holdings, Inc.: SWOT Analysis
Figure 106 Haydale Limited: Business Overview
Figure 107 Haydale: SWOT Analysis
Figure 108 Samsung Electronics Co., Ltd.: Business Overview
Figure 109 Samsung Electronics Co., Ltd.: SWOT Analysis

Graphene is well known in the market from past one decade. It was recognized in late 2004 by two scientists namely Andre Geim and Kostya Novoselov at the University of Manchester. For this invention they both were awarded with Nobel Prize in Physics in 2010. After this incident, Graphene gained huge importance in research associations, companies and educational institutes. Many universities and educational institutes are doing investments and researching on this wonder material. The material has extravagant properties such as thermal conductivity, electron mobility, optical observance and so on which stand it far above with the related materials and carbon nano-tubes. Graphene found its way in number of industry verticals such as consumer electronics, communication, aerospace; defense, telecommunication, solar & photovoltaic, biotechnology and nanotechnology are among others.

Apart from the novel properties, Graphene has found its space in the semiconductor and electronics vertical which gives an enormous opportunity to do a lot with products and devices. The industry is witnessing the spree of new product developments, patent filings, mergers, collaborations and other alliances by number of research organizations and companies for having the first mover advantage in the industry. The forward integration of the research institutes into the commercial player is the key activity of the industry.

This report on the Graphene electronics market, related industry and the overall ecosystem is a culmination of extensive primary and secondary research. It provides complete quantitative and qualitative information of the Graphene electronics market & all its segments, and also forecasts the same till 2020. The report analyzes the global market and presents detailed insights on the market, when segmented by technology, materials, products, devices, applications, and geography. Besides this, detailed analysis on the drivers, restraints, and opportunities of the market are also presented along with an insightful quantitative analysis of the Porter’s five forces and their impacts on the market.

Additionally, the report also analyzes various markets across the value chain, including the Graphene material, device and product manufacturers. The whole market is segmented into number of applications of Graphene such as computing applications, memory and storage applications, thermal management, consumer electronics and clean & green technology among others.

The major companies in the Graphene electronics ecosystem include AMG Advanced Metallurgical Group (Netherlands), Applied Graphene Materials plc (U.K.), Grafoid Inc. (Canada), GrafTech International Ltd. (U.S.), Graphene Frontiers LLC (U.S.), Graphene Laboratories Inc. (New York), Graphene Square, Inc. (South Korea), Graphenea SA (Spain), Haydale Limited (U.K.) and Samsung Electronics Co., Ltd. (South Korea) among others.

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