Original Source: Nanophotonics Market

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Report description

Nanophotonics is born out of the combination of three major sciences: photonics, nanotechnology, and optoelectronics. While photonics and optoelectronics have revolutionized the electronics and semiconductors market, nanotechnology has the greatest potential for further improvement, and hence has emerged as the most sought-after technology by big companies and research laboratories. In spite of it being in the nascent stage, nanophotonics is expected to make it to the mainstream market owing to its higher power efficiency, thermal resistivity, and operational life.

The nanophotonic component market is growing at a robust rate for the last few years and is expected to maintain a very high CAGR for the next few years. The market is expected to reach US$3.6 billion in 2014 at a CAGR of 100.7% from 2009 to 2014.

Untapped market potential and benefits are the primary factors for the early adoption. Though most of the nanophotonic products are still under research, the available products such as nanophotonic LEDs, nanophotonic PV cells, nanophotonic OLEDs have been very successful in the market. Nanophotonic LEDs has the largest market share of US$106 million in 2009. However, considering the pace of progress in various other segments like near-field-optics, optical amplifiers, optical switches and holographic memory, it can be safely ascertained that holographic memory and optical switches are expected to have the highest growth rate in the next five years. Nanophotonic LEDs will still continue to be largest segment albeit with a slow growth rate.
Asia accounts for the largest share of the global nanophotonics market followed by Europe and the U.S. Since the nanophotonic components were introduced early in the Asian market, it is expected to see the lowest growth rate from 2009 to 2014 while the U.S. is expected to grow at a relatively high CAGR of 161.1% in 2014.
  1. Market estimates and forecast
    The report provides in-depth market estimates and forecasts for the global weight management market. The segmentation is as follows:
  2. Nanophotonics components – products:
    Nanophotonic LED, nanophotonic OLED, nanophotonic near field optics, nanophotonic photovoltaic cells, nanophotonic optical amplifiers, nanophotonic optical switches and nanophotonic holographic data storage system
  3. Nanophotonics – applications:
    Indicators and signs, lighting, non-visual applications, telecommunications, entertainment and consumer electronics
  4. Nanophotonics – ingredients:
    Photonic crystals, plasmonics, nanotubes, nanoribbons and quantum dots
Each section will provide market data, market drivers, trends and opportunities, top-selling products, key players, and competitive outlook. This report will also provide more than 100 market tables for various geographic regions covering the sub-segments and micro-markets. In addition, the report also provides 50 company profiles for each of its sub-segments.

What makes our reports unique?
  1. We provide the longest market segmentation chain in this industry- not many reports provide market breakdown upto level 5.
  2. Each report is about 250 pages with 100+ market data tables, 40 competitive company profiles, analysis of 300 patents and minimum 50 micro markets, which are collectively exhaustive and mutually exclusive.
  3. No single report by any other publisher provides market data for all the segments viz products, services, applications, ingredients, technology, and stakeholders in a single report for all the four geographies – US, Europe, APAC, ROW.
  4. We provide 10% customization- normally it is seen that clients do not find specific market intelligence that they are looking for. Our customization Our customization will ensure that you necessarily get the market intelligence you are looking for and we get a loyal customer.
  5. 15 pages of high level analysis including benchmarking strategies, best practices and the market’s cash cows (BCG matrix). We conduct detailed market positioning, product positioning and competitive positioning. Entry strategies, gaps and opportunities are identified for all the stakeholders.
  6. Comprehensive market analysis for pharmaceutical and biotech companies, medical device manufacturers, pharma-research labs, doctors, physicians and hospitals, medical/pharma associations, retailers and super-retailers, technology providers, and research and development (R&D) companies.
Key questions answered
  1. Which are the high-growth segments/cash cows and how is the market segmented in terms of applications, products, services, ingredients, technologies, stakeholders?
  2. What are market estimates and forecasts; which markets are doing well and which are not?
  3. Where are the gaps and opportunities; what is driving the market?
  4. Which are the key playing fields? Which are the winning edge imperatives?
  5. How is the competitive outlook; who are the main players in each of the segments; what are the key selling products; what are their strategic directives, operational strengths and product pipelines? Who is doing what?
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TABLE OF CONTENTS
1. INTRODUCTION
1.1. KEY TAKE AWAYS
1.2. REPORT DESCRIPTION
1.3. MARKETS COVERED
1.4. STAKEHOLDERS
2. SUMMARY
3. MARKET OVERVIEW
3.1. EVOLUTION OF NANOPHOTONICS
3.2. DRIVING FACTOR ANALYSIS FOR NANOPHOTONICS MARKET
3.3. DEFINING THE NANOPHOTONICS DEVICE MARKET
3.4. DEFINING THE NANOPHOTONICS MARKET BY PRODUCTS
3.5. DEFINING THE NANOPHOTONICS MARKET BY APPLICATION
3.6. MARKET DRIVERS
3.6.1. LARGE OPTICAL BANDWIDTH AND ENERGY-EFFICIENT DESIGNS
3.6.2. MAJOR APPLICATIONS IN LED, OLED, AND OPTICAL
COMMUNICATION
3.6.3. NANOPHOTONIC INGREDIENTS FACILITATE DISEASE IMAGING
3.6.4. NANOPHOTONIC RESEARCH DEVICE MARKET GROWING AT 60% P.A.
3.6.5. NANOPHOTONIC SWITCHES ARE HEAT-RESISTANT
3.7. CHALLENGES
3.7.1. LIMITED COMMERCIALIZATION
3.7.2. DIFFICULTY WITH LARGE-SCALE PRODUCTION
3.7.3. HIGH MANUFACTURING COST
3.8. OPPORTUNITIES
3.8.1. THE NANOPHOTONIC MARKET IS STILL AT A NASCENT STAGE
3.8.2. LARGE NUMBER OF APPLICATIONS
3.8.3. REDUCTION IN MANUFACTURING COST
4. NANOPHOTONICS COMPONENTS
4.1. NANOPHOTONIC LED MARKET
4.1.1. MARKET DRIVERS
4.1.1.1. Absence of Hazardous Chemicals
4.1.1.2. Increased Demand for LED in Consumer Goods
4.1.1.3. Smaller Size and Faster Switching
4.1.1.4. High Power -to-Performance Ratio
4.1.1.5. Increase i n Demand for Sol id-St ate Lighting
4.1.1.6. Governmental Support for Energy-Efficient Lighting
4.1.1.6. High Thermal Conductivity and Modulation Rate
4.1.2. MARKET RESTRAINTS
4.1.2.1. More Expensive Than Incandescent Lamps
4.1.2.2. low demand for Cell Phones in Developed Countries
4.1.2.3. Need Precise Current and Heat Management
4.1.3. MARKET OPPORTUNITIES
4.1.3.1. Narrowing Cost Diffrential
4.1.3.2. Improvement in Efficiency
4.1.4. KEY PLAYERS AND RECENT DEVELOPMENTS
4.1.5. NANOPHOTONICS HIGH BEAM (HB) LED
4.1.5.1. Market Drivers
4.1.5.2. Market Restraints
4.1.5.3. Market Opportunities
4.1.5.4. Key Players and Recent Developments
4.1.5.5. Nanophotonic White HB LED
4.1.5.5.1. Global Factors Affecting Nanophotonic
White HB LED  Market
4.1.5.5.1.1. Key Players and Recent Developments
4.1.5.5.1.2. Nanophotonic Color HB LED
4.1.5.5.2. Market Drivers
4.1.5.5.3. Market Restraints
4.1.5.5.4. Key Players and Recent Developments
4.1.6. NANOPHOTONIC FLASHING LED
4.1.6.1. Global Factors Affecting Nanophotonic Flashing LED Market
4.1.6.2. Key Players and Recent Developments
4.1.7. NANOPHOTONIC UV LED
4.1.7.1. Market Drivers
4.1.7.2. Market Restraints
4.1.7.3. Key Players and Recent Developments
4.1.8. NANOPHOTONIC ALPHANUMERIC LED
4.1.8.1. Market Drivers
4.1.9. KEY PLAYERS AND RECENT DEVELOPMENTS
4.2. NANOPHOTONIC ORGANIC LIGHT EMITTING DIODES (OLED)
4.2.1. MARKET DRIVERS
4.2.1.1. OLEDs Consume Less Power
4.2.1.2. OLEDs are Brighter , Crisper , and More Powerful Than LEDs
4.2.1.3. OLEDs are Flexible and Have a Large Field View
4.2.2. MARKET RESTRAINTS
4.2.2.1. Complex Value Chain
4.2.2.2. OLED Facing Product ion Problems
4.2.2.3. Color Reliability Needs Improvement
4.2.2.4. OLED Facing Problems in Overtaking LCD
4.2.3. MARKET OPPORTUNITIES
4.2.3.1. High Growth of Mobile Industry
4.2.3.2. Opportunity for Penetration
4.2.4. KEY PLAYERS AND RECENT DEVELOPMENTS
4.2.5. NANOPHOTONIC ACTIVE MATRIX OLED (AMOLED)
4.2.5.1. Market Drivers
4.2.5.2. Market Opportunities
4.2.5.3. Key Player s and Recent Developments
4.2.6. NANOPHOTONIC PASSIVE MATRIX OLED (PMOLED)
4.2.6.1. Market Drivers
4.2.6.2. Market Restraints
4.2.6.3. Market Opportunities
4.2.6.4. Key Players and Recent Developments
4.3. NANOPHOTONICS NEAR FIELD OPTICS (NFO)
4.3.1. MARKET DRIVERS
4.3.1.1. NFO has Wide Ranging Applications
4.3.1.2. NFO has a High Data Storage Capacity
4.3.2. MARKET OPPORTUNITIES
4.3.2.1. Near- Field Lithography Has Good Market Potential
4.3.2.2. NFO Prevents Data Loss
4.3.2.3. NFO Addresses the Increasing Demand for High Storage  Capacity
4.3.3. KEY PLAYERS AND RECENT DEVELOPMENTS
4.4. NANOPHOTONICS PHOTOVOLTAIC CELLS
4.4.1. MARKET DRIVERS
4.4.1.1. Worldwide Concern over Global Warming
4.4.1.2. Increasing Pr ices of Non-Renewable Energy
4.4.1.3. Emergence of Sophisticated Solar PV Technologies
4.4.1.4. EU’s ‘Climate Action and Renewable Energy Package’
4.4.2. MARKET RESTRAINTS
4.4.2.1. Dependence on Solar -Grade Polysilicon
4.4.2.2. High Product ion and Development Costs
4.4.2.3. No Gid Parity
4.4.2.4. Nanotechnology Needs to Improve Efficiency
4.4.3. MARKET OPPORTUNITIES
4.4.3.1. Benefits of Subsidies and Grid Parity
4.4.3.2. Capacity Increase in Polysilicon Production
4.4.3.3. Compatibility with Plastics and Other Polymers
4.4.3.4. Small Size
4.4.4. KEY PLAYERS AND RECENT DEVELOPMENTS
4.4.5. NANOPHOTONIC SILICON PV CELLS
4.4.5.1. Market Drivers
4.4.5.2. Market Restraints
4.4.5.3. Market Opportunities
4.4.5.4. Key Players and Recent Developments
4.4.5.5. Nanophotonic Mono-Crystalline silicon PV Cells .
4.4.5.5.1. Market Drivers
4.4.5.5.2. Market Restraints
4.4.5.5.3. Ma r k et Opportuni ties
4.4.5.5.4. Key Players and Recent Developments .
4.4.5.6. Nanophotonic Poly-Crystal line Silicon PV Cells
4.4.5.6.1. Market Drivers
4.4.5.6.2. Market Restraints
4.4.5.6.3. Market Opportunities
4.4.5.6.4. key Players and Recent Developments
4.4.5.7. Nanophotonic Ribbon Silicon PV Cells
4.4.5.7.1. Key Players and Recent Developments
4.4.5.8. Nanophotonic Amorphous Thin- Film Silicon PV Cel l s
4.4.5.8.1. Market Drivers
4.4.5.8.2. Market Restraints
4.4.5.8.3. Market Opportunities
4.4.5.8.4. Key Players and Recent Developments
4.4.6. NANOPHOTONIC GALLIUM ARSENIDE PV CELLS
4.4.6.1. Market Drivers
4.4.6.2. Market Restraints
4.4.6.3. Market Opportunities
4.4.6.4. Key Players and Recent Developments.
4.5. NANOPHOTONICS OPTICAL AMPLIFIERS
4.5.1. MARKET DRIVERS
4.5.1.1. Technological Backbone for Telecommunications
4.5.1.2. High Transmission Speed and Low Loss Quality
4.5.1.3. Ensures Channel Management and Boosts Laser Output Power
4.5.2. MARKET RESTRAINTS
4.5.2.1. Increases Capital Expenditure
4.5.2.2. Preference for Wireless and Slow Development
4.5.3. KEY PLAYERS AND RECENT DEVELOPMENTS
4.5.4. NANOPHOTONICS OPTICAL FIBER AMPLIFIERS
4.5.4.1. Market Drivers
4.5.4.2. Key Players and Recent Developments
4.5.4.3. Nanophotonic Eridium Doped Fiber Amplifier (EDFA)
4.5.4.3.1. Market Drivers .
4.5.4.3.2. Market Restraints
4.5.4.3.3. Key Players and Recent Developments
4.5.4.4. Nanophotonics Multi -Wavelenght Optical Repeaters
4.5.4.5. Nanophotonic Gain Blocks
4.5.4.6. Nanophotonics Fluoride Fiber Amplifiers .
4.5.4.7. Nanophotonics Praseodymium Amplifiers
4.5.4.7.1. Market Drivers
4.5.4.7.2. Market Restraints
4.5.4.8. Nanophotonics Tellurite Amplifiers .
4.5.4.8.1. Market Drivers and Opportunities
4.5.5. NANOPHOTONIC SEMICONDUCTOR OPTICAL AMPLIFIERS
4.5.5.1. Market Drivers
4.5.5.2. Market Restraints
4.5.5.3. Key Players and Recent Developments
4.5.6. NANOPHOTONICS RAMAN AMPLIFIERS
4.5.6.1. Market Drivers
4.5.6.2. Market Opportunities .
4.5.6.3. Key Players and Recent Developments .
4.6. NANOPHOTONIC OPTICAL SWITCHES
4.6.1. MARKET DRIVERS
4.6.1.1. Key Component i n Several Applications .
4.6.1.2. Growth of Internet Transactions
4.6.1.3. Compactness Enhances Telecommunication Applications
4.6.1.4. Applications in Digital Data Links
4.6.1.5. Advanced Medical and Defense Applications
4.6.2. MARKET RESTRAINTS
4.6.2.1. Coupling Loss.
4.6.2.2. Limited Expandability and Reliability .
4.6.3. MARKET OPPORTUNITIES
4.6.3.1. High Speed Data Transfer
4.6.3.2. Possible Reduction in Price .
4.7. NANOPHOTONICS HOLOGRAPHIC DATA STORAGE SYSTEM
4.7.1. MARKET DRIVERS
4.7.1.1. High Data Storage Capacity
4.7.1.2. High Speed and Low Power Consumption
4.7.2. MARKET RESTRAINTS
4.7.2.1. High Development Cost .
4.7.2.2. Product Immaturity
4.7.3. MARKET OPPORTUNITIES
4.7.3.1. Applications in Portable Consumer Electronics .
4.7.3.2. HDSS Market Yet to be Fully Tapped
4.7.4. KEY PLAYERS AND RECENT DEVELOPMENTS
4.8. BLOCKBUSTER NANOPHOTONIC PRODUCTS
5. NANOPHOTONICS APPLICATIONS
5.1. APPLICATION OF NANOPHOTONICS LEDS
5.1.1. INDICATORS AND SIGNS
5.1.1.1. Market Drivers
5.1.2. VEHICLES
5.1.2.1. Market Drivers
5.1.2.2. Market Restraints
5.1.2.3. Market Opportunities .
5.1.3. DECORATION
5.1.4. TRAFFIC SIGNALING
5.1.4.1. Market Drivers .
5.1.4.2. Market Restraints .
5.1.5. LIGHTING
5.1.5.1. Market Drivers
5.1.5.2. Application in LCD Display Backlighting
5.1.5.2.1. Market Drivers
5.1.5.2.2. Market Restraints
5.1.5.3. Application in Laptops
5.1.5.3.1. Market Drivers
5.1.5.4. Application in Projectors
5.1.5.4.1. Market Drivers
5.1.5.5. Application in Mobile Phones .
5.1.5.5.1. Market Drivers .
5.1.6. NON-VISUAL APPLICATIONS
5.1.6.1. Market Drivers .
5.1.6.2. Application in Artificial Photosynthesis
5.1.6.3. Key Players and Recent Developments
5.1.6.4. Application in the Medical and Instrumentation Market s
5.1.6.5. Application in Ultra Violet (UV) Curing
5.1.6.5.1. Market Drivers
5.1.6.5.2. Market Restraints
5.1.6.6. Application in Water and Air Purification
5.1.6.7. Applications in Counterfeit Detection
5.1.6.7.1. Market Drivers .
5.1.6.7.2. Market Opportunities .
5.1.6.7.3. Key Players and Recent Development s
5.2. APPLICATIONS OF OLED
5.2.1. TELECOMMUNICATIONS
5.2.1.1. Market Drivers and Restraints
5.2.2. AUTOMOTIVE
5.2.3. ENTERTAINMENT
5.2.4. CONSUMER ELECTRONICS
5.2.5. DIGITAL VIDEO TECHNOLOGY
5.2.6. INDUSTRIAL, SCIENTIFIC AND MEDICAL
5.3. APPLICATIONS OF NFO
5.3.1. SURFACE CHEMISTRY
5.3.1.1. Market Drivers
5.3.2. BIOLOGY
5.3.3. MATERIAL SCIENCE
5.3.4. CHEMICAL STORAGE
5.3.5. INFORMATION STORAGE
5.3.6. NON-VISIBLE WAVELENGTH INSTRUMENTS
5.4. APPLICATION OF NANOPHOTONICS PV CELLS
5.4.1. NANOPHOTONICS APPLICATION IN GRID-CONNECTED PV SYSTEMS
5.4.1.1. Market Drivers
5.4.1.2. Market Restraints
5.4.1.3. Market Opportunities
5.4.2. NANOPHOTONICS APPLICATION IN OFF-GRID-CONNECTED PV SYSTEM
5.4.2.1. Market Drivers
5.4.2.2. Market Restraints
5.4.2.3. Market Opportunities
5.4.3. NANOPHOTONICS APPLICATION IN CONSUMER ELECTRONICS
5.4.3.1. Market Drivers
5.4.3.2. Market Restraints
5.4.3.3. Market Opportunities
5.5. APPLICATIONS OF OPTICAL AMPLIFIER
5.5.1. TELECOMMUNICATION/DENSE WAVELENGTH DIVISION
5.5.2. MULTIPLEXING (DWDM) NETWORKS
5.5.3. PRIVATE DATA NETWORKS
5.5.4. DEFENSE
5.5.5. AEROSPACE
5.5.6. CABLE TELEVISION
5.6. APPLICATION OF NANOPHOTONICS IN OPTICAL SWITCHES
5.6.1. TELECOMMUNICATION APPLICATIONS
5.6.1.1. Market Drivers
5.6.2. DIGITAL DATA LINK APPLICATIONS
5.6.3. LAN APPLICATIONS
5.6.3.1. Market Drivers .
5.6.4. VIDEO APPLICATIONS
5.6.5. MEDICAL APPLICATIONS
5.6.6. AEROSPACE/DEFENSE APPLICATIONS
5.6.6.1. Market Drivers
5.7. APPLICATIONS OF HDSS
5.7.1. ARCHIVE AND MEDIA MANAGEMENT
5.7.2. DATA MINING
5.7.2.1. Market Drivers
5.7.3. PETAFLOP COMPUTING
5.7.3.1. Market Drivers and Restraints
6. NANOPHOTONICS INGREDIENTS
6.1. PHOTONIC CRYSTALS
6.2. PLASMONICS
6.2.1. MARKET DRIVERS
6.3. NANOTUBES
6.3.1. MARKET DRIVERS
6.3.2. MARKET OPPORTUNITIES
6.4. NANORIBBONS
6.4.1. MARKET DRIVERS
6.4.2. MARKET CHALLENGES
6.5. QUANTUM DOTS
6.5.1. MARKET DRIVERS
6.5.2. MARKET CHALLENGES
7. GEOGRAPHIC ANALYSIS
7.1. THE U.S. NANOPHOTONICS MARKET
7.2. ASIAN NANOPHOTONICS MARKET
7.3. EUROPEAN NANOPHOTONICS MARKET
8. COMPANY PROFILES
8.1. VEECO INSTRUMENTS INC
8.2. WITEC GMBH
8.3. ADD-VISION
8.4. ANDERS ELECTRONICS
8.5. CRYSTALFONTZ AMERICA INC
8.6. NOVALED AG
8.7. OSRAM
8.8. SAMSUNG SDI
8.9. COVEGA CORPORATION
8.10.EPSON
8.11.HOLLAND ELECTRONICS LLC
8.12.JDSU
8.13.LITE ARRAY
8.14.NEWPORT CORPORATION
8.15.RITDISPLAY
8.16.global Nanophotonics Market 2009
8.17.SCHOTT AG
8.18.TOSHIBA MATSUSHITA DISPLAY TECHNOLOGY CO. LTD.
8.19.TRIQUINT SEMICONDUCTOR INC.
8.20.XINTEK INC
8.21.UNIVERSAL DISPLAY CORPORATION
8.22.ST MICROELECTRONICS
8.23.NANOSYS INC
8.24.MPHASE TECHNOLOGIES INC.
8.25.HEADWALL PHOTONICS
8.26.GE LUMINATION LLC  0
8.27.CAMBRIDGE DISPLAY TECHNOLOGY (CDT)
8.28.AVANEX CORPORATION
8.29.ALCATEL-LUCENT
8.30.API GROUP
8.31.NANONICS IMAGING LTD
8.32.OLYMPUS IMAGING CORPORATION
8.33.INPHASE TECHNOLOGIES
8.34.BELGIAN AMERICAN RADIO CORPORATION.
8.35.SHARP
8.36.EVIDENT TECHNOLOGIES INC
8.37.PHILIPS LUMILEDS LIGHTING COMPANY
8.38.AVANCIS GMBH & CO. KG
8.49.HITACHI LTD
8.40.NEC CORP
8.41.NANOGRAM CORPORATION
8.42.IBM
8.43.CRYSTAL IS INC
8.44.NANOCO TECHNOLOGIES LTD
8.45.NANOCYL S.A.
8.46.NANOLAB INC.
8.47.SHENZHEN NANOTECHNOLOGIES CO. LTD.
8.48.ULTRADOTS INC  214
8.59.UNIVERSAL DISPLAY CORPORATION
8.50.NANOSOLAR, INC
8.51.CREE
9. PATENT ANALYSIS
Appendix
U.S. PATENTS
E.U.PATENTS
ASIA PATENTS
LIST OF TABLES

SUMMARY TABLE – GLOBAL NANOPHOTONICS MARKET 2007 – 2014
1. TABLE 1 GLOBAL NANOPHOTONIC LED MARKET BY PRODUCTS 2008 – 2014
2. TABLE 2 GLOBAL NANOPHOTONICS LED MARKET BY GEOGRAPHY 2008 – 2014
3. TABLE 3 MAJOR PLAYERS AND PRODUCT DEVELOPMENTS
4. TABLE 4 GLOBAL NANOPHOTONICS HIGH BEAM (HB) LED MARKET BY PRODUCTS 2008 – 2014
5. TABLE 5 GLOBAL NANOPHOTONICS HIGH BEAM (HB) LED MARKET BY GEOGRAPHY 2008 – 2014
6. TABLE 6 MAJOR PLAYERS AND PRODUCT DEVELOPMENTS
7. TABLE 7 GLOBAL NANOPHOTONICS WHITE HB LED MARKET BY GEOGRAPHY 2008 – 2014
8. TABLE 8 MAJOR PLAYERS AND PRODUCT DEVELOPMENTS
9. TABLE 9 GLOBAL NANOPHOTONIC COLOR HB LED MARKET BY GEOGRAPHY 2008 – 2014
10.TABLE 10 MAJOR PLAYERS AND PRODUCT DEVELOPMENTS
11.TABLE 11 GLOBAL NANOPHOTONIC FLASHING LED MARKET BY GEOGRAPHY 2008 – 2014
12.TABLE 12 MAJOR PLAYERS AND PRODUCT DEVELOPMENTS
13.TABLE 13 GLOBAL NANOPHOTONIC UV LED MARKET BY GEOGRAPHY 2008 – 2014
14.TABLE 14 MAJOR PLAYERS AND PRODUCT DEVELOPMENTS
15.TABLE 15 GLOBAL NANOPHOTONIC ALPHANUMERIC LED MARKET BY GEOGRAPHY 2008 – 2014
16.TABLE 16 MAJOR PLAYERS AND PRODUCT DEVELOPMENTS
17.TABLE 17 GLOBAL NANOPHOTONIC OLED MARKET BY PRODUCTS 2008 – 2014
18.TABLE  GLOBAL NANOPHOTONICS OLED MARKET BY GEOGRAPHY 2008–2014
19.TABLE  REVENUE AND MARKET SHARE OF MAJOR PLAYERS IN THE GLOBAL NANOPHOTONICS OLED MARKET
20.TABLE 20 GLOBAL NANOPHOTONICS OLED APPLICATION MARKET SHARE
21.TABLE 21 MAJOR PLAYERS AND PRODUCT DEVELOPMENTS
22.TABLE 22 GLOBAL NANOPHOTONIC ACTIVE MATRIX OLED MARKET BY GEOGRAPHY 2007 – 2014
23.TABLE 23 MAJOR PLAYERS AND PRODUCT DEVELOPMENTS
24.TABLE 24 GLOBAL NANOPHOTONIC PASSIVE MATRIX OLED MARKET BY GEOGRAPHY 2008 – 2014
25.TABLE 25 MAJOR PLAYERS AND PRODUCT DEVELOPMENTS
26.TABLE 26 GLOBAL NANOPHOTONIC NFO MARKET BY GEOGRAPHY 2008 – 2014
27.TABLE 27 MAJOR PLAYERS AND PRODUCT DEVELOPMENTS
28.TABLE 28 GLOBAL NANOPHOTONIC PV CELLS MARKET BY PRODUCTS 2008 – 2014 ($ THOUSANDS)
29.TABLE 29 GLOBAL NANOPHOTONIC PV CELLS MARKET BY GEOGRAPHY 2007 – 2014
30.TABLE 30 MAJOR PLAYERS AND PRODUCT DEVELOPMENTS
31.TABLE 31 GLOBAL NANOPHOTONIC SILICON PV CELLS MARKET BY PRODUCTS 2007 – 2014
32.TABLE 32 GLOBAL NANOPHOTONIC SILICON PV CELLS MARKET BY GEOGRAPHY 2008 – 2014
33.TABLE 33 MAJOR PLAYERS AND PRODUCT DEVELOPMENTS
34.TABLE 34 GLOBAL NANOPHOTONIC MONO-CRYSTALLINE PV CELLS MARKET BY GEOGRAPHY
35.TABLE 35 MAJOR PLAYERS AND PRODUCT DEVELOPMENTS
36.TABLE 36 GLOBAL NANOPHOTONIC POLY-CRYSTALLINE SILICON PV CELLS MARKET BY GEOGRAPHY
37.TABLE 37 MAJOR PLAYERS AND PRODUCT DEVELOPMENTS
38.TABLE 38 GLOBAL NANOPHOTONIC RIBBON SILICON MARKET BY GEOGRAPHY 2008 – 2014
39.TABLE 39 MAJOR PLAYERS AND PRODUCT DEVELOPMENTS
40.TABLE 40 GLOBAL NANOPHOTONICS AMORPHOUS THIN FILM SILICON PV CELLS MARKET BY GEOGRAPHY 2008 – 2014
41.TABLE 41 MAJOR PLAYERS AND PRODUCT DEVELOPMENTS
42.TABLE 42 GLOBAL NANOPHOTONICS GALLIUM ARSENIDE PV CELLS MARKET  BY GEOGRAPHY 2008 – 2014
43.TABLE 43 MAJOR PLAYERS AND PRODUCT DEVELOPMENTS
44.TABLE 44 GLOBAL NANOPHOTONICS OPTICAL AMPLIFIERS MARKET  BY PRODUCTS 2008 – 2014
45.TABLE 45 GLOBAL NANOPHOTONICS OPTICAL AMPLIFIERS MARKET  BY GEOGRAPHY 2008 – 2014
46.TABLE 46 MAJOR PLAYERS AND THEIR PRODUCTS
47.TABLE 47 GLOBAL NANOPHOTONICS OPTICAL FIBER AMPLIFIERS MARKET BY PRODUCTS 2008 – 2014
48.TABLE 48 GLOBAL NANOPHOTONICS OPTICAL FIBER AMPLIFIERS MARKET   BY GEOGRAPHY 2008 – 2014
49.TABLE 49 MAJOR PLAYERS AND THEIR PRODUCTS
50.TABLE 50 GLOBAL NANOPHOTONICS EDFA MARKET BY GEOGRAPHY 2008–2014
51.TABLE 51 MAJOR PLAYERS AND THEIR PRODUCTS
52.TABLE 52 GLOBAL NANOPHOTONICS MULTI-WAVELENGTH OPTICAL REPEATERS MARKET BY GEOGRAPHY 2008 – 2014
53.TABLE 53 GLOBAL NANOPHOTONICS GAIN BLOCKS MARKET BY GEOGRAPHY 2008 – 2014 ($ THOUSANDS)
54.TABLE 54 GLOBAL NANOPHOTONICS FLUORIDE FIBER AMPLIFIERS MARKET BY GEOGRAPHY 2008 – 2014 ($ THOUSANDS)
55.TABLE 55 GLOBAL NANOPHOTONICS PRASEODYMIUM AMPLIFIERS MARKET BY GEOGRAPHY 2008 – 2014 ($ THOUSANDS)
56.TABLE 56 GLOBAL NANOPHOTONICS TELLURITE AMPLIFIERS MARKET BY GEOGRAPHY 2008 – 2014 ($ THOUSANDS)
57.TABLE 57 GLOBAL NANOPHOTONICS SEMICONDUCTOR AMPLIFIERS MARKET BY GEOGRAPHY 2008 – 2014 ($ THOUSANDS)
58.TABLE 58 MAJOR PLAYERS AND THEIR PRODUCTS
59.TABLE 59 GLOBAL NANOPHOTONICS RAMAN AMPLIFIERS MARKET BY GEOGRAPHY 2008 – 2014 ($ THOUSANDS)
60.TABLE 60 MAJOR PLAYERS AND PRODUCT DEVELOPMENTS
61.TABLE 61 GLOBAL NANOPHOTONICS OPTICAL SWITCH MARKET BY GEOGRAPHY 2008 – 2014 ($ THOUSANDS)
62.TABLE 62 GLOBAL NANOPHOTONICS HOLOGRAPHIC DATA STORAGE SYSTEM (HDSS) MARKET BY PRODUCTS 2008 – 2014 ($ THOUSANDS)
63.TABLE 63 GLOBAL NANOPHOTONICS HOLOGRAPHIC DATA STORAGE SYSTEM (HDSS) MARKET BY GEOGRAPHY 2008 – 2014 ($ THOUSANDS)
64.TABLE 64 MAJOR PLAYERS AND PRODUCT DEVELOPMENTS
65.TABLE 65 MAJOR PLAYERS AND PRODUCT DEVELOPMENTS
66.TABLE 66 GLOBAL NANOPHOTONICS LED MARKET BY APPLICATION 2008–2014
67.TABLE 67 GLOBAL NANOPHOTONICS INDICATORS AND SIGNS MARKET  BY APPLICATION 2008 – 2014
68.TABLE 68 GLOBAL NANOPHOTONICS LIGHTING MARKET BY APPLICATION 2008 – 2014
69.TABLE 69 GLOBAL NANOPHOTONICS NON-VISUAL MARKET BY APPLICATION 2008 – 2014
70.TABLE 70 MAJOR PLAYERS AND PRODUCT DEVELOPMENTS
71.TABLE 71 MAJOR PLAYERS AND PRODUCT DEVELOPMENTS
72.TABLE 72 GLOBAL NANOPHOTONICS OLED MARKET BY APPLICATION 2008 – 2014
73.TABLE 73 GLOBAL NANOPHOTONICS NEAR FIELD OPTICS (NFO) MARKET  BY APPLICATION 2008 – 2014
74.TABLE 74 GLOBAL NANOPHOTONICS PV CELLS MARKET BY APPLICATION 2008 – 2014
75.TABLE 75 GLOBAL NANOPHOTONICS OPTICAL AMPLIFIER MARKET BY APPLICATION 2008 – 2014
76.TABLE 76 GLOBAL NANOPHOTONICS OPTICAL SWITCHES MARKET BY APPLICATION 2008 – 2014
77.TABLE 77 GLOBAL NANOPHOTONIC HDSS MARKET BY APPLICATION 2008–2014
78.TABLE 78 GLOBAL NANOPHOTONICS MARKET BY INGREDIENTS 2008 – 2014
79.TABLE 79 GLOBAL NANOPHOTONICS HDSS MARKET BY GEOGRAPHY 2008–2014
80.TABLE 80 GLOBAL NANOPHOTONICS MARKET BY GEOGRAPHY 2008 – 2014
81.TABLE 81 U.S. NANOPHOTONICS MARKET BY GEOGRAPHY 2008 – 2014
82.TABLE 82 ASIAN NANOPHOTONICS MARKET BY GEOGRAPHY 2008 – 2014
83.TABLE 83 EUROPEAN NANOPHOTONICS MARKET BY GEOGRAPHY 2008 – 2014
84.TABLE 84 VEECO INSTRUMENTS INC PRODUCTS
85.TABLE 85 VEECO INSTRUMENTS INC NEW PRODUCTS
86.TABLE 86 WITEC GMBH PRODUCTS
87.TABLE 87 ADD-VISION PRODUCTS
88.TABLE 88 ANDERS ELECTRONICS PRODUCTS
89.TABLE 89 CRYSTALFONTZ AMERICA, INC PRODUCTS
90.TABLE 90 CRYSTALFONTZ AMERICA, INC NEW PRODUCTS
91.TABLE 91 NOVALED AG PRODUCTS
92.TABLE 92 OSRAM PRODUCTS
93.TABLE 93 SAMSUNG SDI PRODUCTS
94.TABLE 94 COVEGA CORPORATION PRODUCTS
95.TABLE 95 HOLLAND ELECTRONICS LLC PRODUCTS
96.TABLE 96 JDSU PRODUCTS
97.TABLE 97 LITE ARRAY PRODUCTS
98.TABLE 98 NEWPORT CORPORATION PRODUCTS
99.TABLE 99 NEWPORT CORPORATION NEW PRODUCTS
100.TABLE 100 RITDISPLAY CORPORATION PRODUCTS
101.TABLE 101 SCHOTT AG PRODUCTS
102.TABLE 102 TOSHIBA MATSUSHITA DISPLAY TECHNOLOGY CO PRODUCTS
103.TABLE 103 TRIQUINT SEMICONDUCTOR INC PRODUCTS
104.TABLE 104 TRIQUINT SEMICONDUCTOR INC NEW PRODUCTS
105.TABLE 105 XINTEK, INC PRODUCTS
106.TABLE 106 UNIVERSAL DISPLAY CORPORATION PRODUCTS
107.TABLE 107 ST MICROELECTRONICS PRODUCTS
108.TABLE 108 NANOSYS INC APPLICATION PRODUCTS
109.TABLE 109 HEADWALL PHOTONICS PRODUCTS
110.TABLE 110 GENERAL ELECTRIC PRODUCTS
111.TABLE 111 TEST EQUIPMENTS PRODUCTS
112.TABLE 112 AVANEX CORPORATION PRODUCTS
113.TABLE 113 ALCATEL-LUCENT PRODUCTS
114.TABLE 114 API GROUP PRODUCTS
115.TABLE 115 NANONICS IMAGING LTD PRODUCTS
116.TABLE 116 OLYMPUS PRODUCTS
117.TABLE 117 OLYMPUS NEW PRODUCTS
118.TABLE 1 INPHASE TECHNOLOGIES PRODUCTS
119.TABLE 1 BELGIAN AMERICAN RADIO CORPORATION PRODUCTS
120.TABLE 120 SHARP CORPORATION PRODUCTS
121.TABLE 121 EVIDENT TECHNOLOGIES INC PRODUCTS
122.TABLE 122 PHILIPS LUMILEDS LIGHTING COMPANY PRODUCTS
123.TABLE 123 AVANCIS GMBH & CO. KG PRODUCTS
124.TABLE 124 HITACHI LTD PRODUCTS
125.TABLE 125 NEC CORP PRODUCTS
126.TABLE 126 NANOGRAM CORPORATION PRODUCTS
127.TABLE 127 IBM PRODUCTS
128.TABLE 128 CRYSTAL IS, INC. PRODUCTS
129.TABLE 129 NANOCO TECHNOLOGIES LTD PRODUCTS
130.TABLE 130 NANOCYL S.A PRODUCTS
131.TABLE 131 SHENZHEN NANOTECHNOLOGIES CO. LTD. (NTP) PRODUCTS
132.TABLE 132 ULTRADOTS, INC PRODUCTS
133.TABLE 133 UNIVERSAL DISPLAY CORPORATION PRODUCTS
134.TABLE 134 CREE PRODUCTS
LIST OF FIGURES
1. FIGURE 1 PARENTAL STRUCTURE OF NANOPHOTONICS
2. FIGURE 2 EVOLUTION OF NANOPHOTONICS
3. FIGURE 3 FACTORS AFFECTING THE NANOPHOTONICS MARKET
4. FIGURE 4 COMPETITIVE ANALYSES FOR THE NANOPHOTONIC COMPONENTS
5. FIGURE 5 RELATIVE POTENTIAL MATRIXES FOR NANOPHOTONIC PRODUCTS IN 2014
6. FIGURE 6 GLOBAL NANOPHOTONIC LED MARKET
7. FIGURE 7 GLOBAL NANOPHOTONIC OLED MARKET
8. FIGURE 8 GLOBAL NANOPHOTONIC PV CELLS MARKET
9. FIGURE 9 GLOBAL NANOPHOTONIC OPTICAL AMPLIFIERS MARKET
10.FIGURE 10 GLOBAL NANOPHOTONIC HDSS MARKET
11.FIGURE 11 GLOBAL NANOPHOTONIC LED APPLICATIONS MARKET
12.FIGURE 12 GLOBAL NANOPHOTONIC OLED APPLICATIONS MARKET
13.FIGURE 13 GLOBAL NANOPHOTONIC NFO APPLICATIONS MARKET
14.FIGURE 14 GLOBAL NANOPHOTONIC OPTICAL AMPLIFIERS APPLICATIONS MARKET
15.FIGURE 15 GLOBAL HOLOGRAPHIC MEMORY APPLICATIONS MARKET
16.FIGURE 16 GLOBAL NANOPHOTONIC PV CELLS APPLICATION MARKETS
17.FIGURE 17 GLOBAL OPTICAL SWITCHES APPLICATION MARKETS
18.FIGURE 18 PRODUCT-WISE SEGMENTATION OF NANOPHOTONIC PATENTS
19.FIGURE 19 GEOGRAPHY-WISE SEGMENTATION OF NANOPHOTONIC PATENTS

Nanophotonics to Revolutionize the Market


Nanophotonics is born out of the combination of three major sciences: photonics, nanotechnology, and optoelectronics. While photonics and optoelectronics have revolutionized the electronics and semiconductors market, nanotechnology has the greatest potential for further improvement, and hence has emerged as the most sought-after technology by big companies and research laboratories. In spite of it being in the nascent stage, nanophotonics is expected to make it to the mainstream market owing to its higher power efficiency, thermal resistivity, and operational life.
The nanophotonic component market is growing at a robust rate for the last few years and is expected to maintain a very high CAGR for the next few years. The market is expected to reach US$3.6 billion in 2014 at a CAGR of 100.7% from 2009 to 2014 and a similar growth pattern can be expected for the nanophotonics devices market as well. This market is expected to grow from a current market size of US$1.8 billion to US$58 billion in 2014.

Though most of the nanophotonic products are still under research, the available products such as nanophotonic LEDs, nanophotonic PV cells, nanophotonic OLEDs have been very successful in the market. Nanophotonic LEDs has the largest market share of US$106 million in 2009. However, considering the pace of progress in various other segments like near-field-optics, optical amplifiers, optical switches and holographic memory, it can be safely ascertained that holographic memory and optical switches are expected to have the highest growth rate in the next five years. Nanophotonic LEDs will still continue to be largest segment albeit with a slow growth rate.
In the nanophotonic LED market, the high beam LED has the highest market share followed by UV LED. In the fastest growing market of optical amplifiers, it is the optical fiber amplifier that commands the highest CAGR in the period 2009 to 2014 followed by semiconductor amplifiers. HDSS is also expected to grow with a CAGR comparable to that of optical amplifiers. OLED is estimated to be the slowest growing market. Lowering production costs and improving operational efficiencies would ensure opening of new opportunities for the nanophotonics market.
The market is very concentrated with only the market leaders like Osram, IBM, Samsung SDI, JDSU, etc doing extensive research in nanophotonics but as most of the application areas are related to electronics, this market is expected to attract a large number of players that would in turn increase the degree of competition.



Growth of Nanophotonic Products from 2009 – 2014

nanophotonics

Source: MarketsandMarkets

The above graph indicates the forecasted growth rate of nanophotonics products from the year 2009 to 2014. The optical amplifiers are expected to grow at the maximum growth rate followed by the HDSS devices. The growth in the nanophotonics market is primarily due to the increasing demand from the Asian countries.

The key players in the nanophotonics component market are working at developing new products by forging strategic alliances with renowned universities, research laboratories and nanomaterial companies. These developments are focused on improving the operational parameters for the nanophotonic devices and grab the early mover’s advantages in the market.
Our patent analysis indicates that the U.S. has filed the highest number of patent applications in nanophotonics since 2006 followed by Europe. In the products category, nanophotonic LED accounts for the highest number of patents followed by nanostructures while OLED accounts for the lowest number.
Original Source: Nanophotonics Market

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