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Top 10 Advanced Materials & Technologies Market by Product (G. Fast Chipset, Quantum Dots, Flexible Battery, Graphene, 3D IC & 2.5D IC Packaging, Organic Electronics, Smart Glass, Others) - Global Forecast to 2021

February 2017 | 315 pages | ID: T8F59E546D8EN
MarketsandMarkets

US$ 5,650.00

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The top 10 advanced materials & technologies in electronics refers to the new or modifications to the existing materials & technologies to obtain superior performance or efficiency. The market includes high growth materials & technologies in the electronics domains such as G. fast chipset, quantum dots, graphene, 3D IC & 2.5D IC packaging, organic electronics, flexible battery, carbon nanotubes, biochip, silicon carbide in semiconductor, and smart glass. The market is witnessing high growth owing to the increasing end-use applications, technological advances, and the high demand for these technologies from both developed and emerging regions.

“3D IC & 2.5D IC Packaging technology to grow at a CAGR of 40.7% CAGR from 2016 to 2021”

3D IC & 2.5D IC packaging is a kind of chip with multiple layers of silicon wafer stalked together, along with electronic components using through-silicon vias (TSVs). Increasing demand for high-performance and low power consumption components are likely to fuel the growth of this market in the coming years. The main driver for the 3D IC and 2.5D IC packaging market is increasing trend of miniaturization of electronic devices.

“Graphene is projected to grow at a CAGR of 42.8% from 2016 to 2021”

The global graphene market is expected to register a growth of 42.8% in terms of value from 2016 to 2021. The demand of graphene has experienced an exponential growth over the recent years, due to its broad array of unique properties and environmental friendly approach. Moreover, graphene is used in various industrial and commercial applications such as composites, coatings, and energy among others owing to its tensile strength, flexibility, and non-toxicity nature which further strengthen the market for graphene.

“Silicon Carbide in Semiconductor is anticipated to grow at a CAGR of 42.8% during the forecast period”

The Silicon Carbide (SiC) in semiconductor devices market is experiencing radical changes because of the technological developments. The demand for SiC in semiconductor will be supported by its superior properties such as hardness, strength, shock resistance, and thermal conductivity, ability to perform in power and frequency.

In the process of determining and verifying the market size for the several segments and subsegments of each product gathered through secondary research, extensive primary interviews were conducted as follows:
  • By Company Type: Tier 1 (31%), Tier 2 (49%), and Tier 3 (20%).
  • By Designation: C-level (44%), Director Level (21%), and Others (35%)
  • By Region: Asia-Pacific (32%), North America (22%), Europe (27%), and RoW (19%).
Note: Others include sales, marketing, and product managers.

RoW includes South America and Middle East & Africa

The tiers of the companies are decided on the basis of revenues and ownership.

Various key players profiled in the report includes, Broadcom Ltd. (U.S.), Sckipio Technologies SI Ltd. (Israel), QD Vision Inc. (U.S.), Nanosys Inc. (U.S.), Samsung Electronics Co., Ltd. (South Korea), STMicroelectronics N.V. (Switzerland), Graphene NanoChem Plc (Malaysia), CVD Equipment Corporation (U.S.), Renesas Electronics Corporation (Japan), Toshiba Corporation (Japan), TSMC Ltd. (Taiwan), Universal Display Corporation (U.S.), BASF SE (Germany), Arkema S.A. (France), Hanwha Chemical Co. Ltd (Korea), and others.

Research Coverage:

The report segments the market on the basis of each advanced material & technologies in electronics domain. Each of these products is further segments into various micro markets such as application, end-use industry, technology, and material. The market is also segmented on the basis of regions, namely, Asia-Pacific, Europe, North America, and RoW.

Reasons to buy this report:

This research report is focused on various levels of analyses—industry analysis (industry trends), and company profiles of top two players for each advanced material & technology, emerging and high-growth segments of the each advanced material & technology; high-growth regions; and market drivers, restraints, and opportunities.

The report provides insights on the following pointers:
  • Market Penetration: Comprehensive information on advanced materials & technologies offered by the top players in the global market
  • Market Development: Comprehensive information about lucrative emerging markets – the report analyzes the markets for advanced materials & technologies in electronics across regions
  • Market Diversification: Exhaustive information about new products, untapped geographies, recent developments, and investments in each advanced materials & technologies in electronics market
  • Competitive Assessment: In-depth assessment of strategies, products, and recent developments of the two leading players in the advanced materials & technologies in electronics market
1 INTRODUCTION

1.1 OBJECTIVES OF THE STUDY
1.2 MARKET DEFINITION
  1.2.1 YEARS CONSIDERED FOR THE STUDY
1.3 CURRENCY
1.4 LIMITATIONS
1.5 STAKEHOLDERS

2 RESEARCH METHODOLOGY

2.1 RESEARCH DATA
  2.1.1 KEY DATA FROM SECONDARY SOURCES
  2.1.2 KEY DATA FROM PRIMARY SOURCES
2.2 MARKET SIZE ESTIMATION
2.3 DATA TRIANGULATION
2.4 RESEARCH ASSUMPTIONS AND LIMITATIONS
  2.4.1 ASSUMPTIONS
  2.4.2 LIMITATIONS

3 EXECUTIVE SUMMARY

3.1 G.FAST CHIPSET MARKET
3.2 QUANTUM DOTS MARKET
3.3 FLEXIBLE BATTERY MARKET
3.4 GRAPHENE MARKET
3.5 SILICON CARBIDE IN SEMICONDUCTOR MARKET
3.6 3D IC & 2.5D IC PACKAGING MARKET
3.7 ORGANIC ELECTRONICS MARKET
3.8 CARBON NANOTUBES MARKET
3.9 SMART GLASS MARKET
3.10 BIOCHIPS MARKET

4 G. FAST CHIPSET MARKET

4.1 INTRODUCTION
4.2 MARKET DYNAMICS
  4.2.1 DRIVERS
    4.2.1.1 Increasing impact of national broadband plan (NBP)
    4.2.1.2 Increased competition among broadband service providers
    4.2.1.3 Growing demand for ultrafast broadband services
  4.2.2 RESTRAINTS
    4.2.2.1 Limited residential application of gigabits rates
    4.2.2.2 Declining market for copper-based broadband technology globally
  4.2.3 OPPORTUNITIES
    4.2.3.1 Greater cost-effectiveness of G.fast compared to FTTH
  4.2.4 CHALLENGES
    4.2.4.1 Limitation of G.fast in areas with low population density
    4.2.4.2 Technical complexity in reverse power feeding
4.3 G.FAST CHIPSET MARKET, BY DEPLOYMENT TYPE
  4.3.1 CPE
  4.3.2 DPU
4.4 G.FAST CHIPSET MARKET BY END USER
  4.4.1 RESIDENTIAL
  4.4.2 ENTERPRISE/COMMERCIAL
4.5 G.FAST CHIPSET MARKET, BY COPPER LINE LENGTH
  4.5.1 COPPER-LINE LENGTH OF SHORTER THAN 100 METERS
  4.5.2 COPPER-LINE LENGTH OF 100 METERS–150 METERS
  4.5.3 COPPER-LINE LENGTH OF 150 METERS–200 METERS
  4.5.4 COPPER-LINE LENGTH OF 200 METERS–250 METERS
  4.5.5 COPPER-LINE LENGTH LONGER THAN 250 METERS
4.6 G.FAST CHIPSET MARKET, BY REGION
  4.6.1 NORTH AMERICA
  4.6.2 EUROPE
  4.6.3 ASIA-PACIFIC
  4.6.4 ROW
4.7 COMPANY PROFILES
(Overview, Financial*, Products & Services, Strategy, and Developments)
  4.7.1 BROADCOM LTD.
  4.7.2 SCKIPIO TECHNOLOGIES SI LTD.
*Details might not be captured in case of unlisted companies.

5 QUANTUM DOTS MARKET

5.1 INTRODUCTION
5.2 MARKET DYNAMICS
  5.2.1 DRIVERS
    5.2.1.1 Growing demand of quantum dots for superior performance and resolution quality
    5.2.1.2 Quantum dot nanomaterial is used as an Energy Efficient Technology
    5.2.1.3 Cost Effective Silicon Dioxide Quantum Dot Based Light Emitting Diodes are Expected to Drive the Market
    5.2.1.4 The need of the ultra-low power Very Large Scale Integration (VLSI) design is expected to increase the use of quantum dots
    5.2.1.5 The Miniature Property of a quantum dot helps its implementation in almost all applications
  5.2.2 RESTRAINTS
    5.2.2.1 Slow Adoption of Technology due to the lack of awareness among consumers
    5.2.2.2 Quantum dot material is extremely expensive
    5.2.2.3 Reduced prices of competitive technologies could impact the launch of QD products
    5.2.2.4 Competition from Low Cost Competing Technologies
  5.2.3 OPPORTUNITIES
    5.2.3.1 Penetration of quantum dots technology in defense and security applications
    5.2.3.2 High Penetration of QD in Industrial Sector
    5.2.3.3 Quantum dot is preferred by display and lighting industries
  5.2.4 CHALLENGES
    5.2.4.1 Raw material availability
    5.2.4.2 Utilization of Heavy Metals as Raw Material
5.3 QUANTUM DOTS MARKET, BY PRODUCT TYPE
  5.3.1 QD MEDICAL DEVICES
  5.3.2 QD DISPLAY
  5.3.3 OTHERS
    5.3.3.1 QD Solar Cells
    5.3.3.2 QD Laser
    5.3.3.3 QD Chips
    5.3.3.4 Qd Sensors
    5.3.3.5 QD Lighting (LED)
    5.3.3.6 Batteries and Energy Storage
    5.3.3.7 Transistor
5.4 QUANTUM DOTS MARKET, BY MATERIAL
  5.4.1 CADMIUM SELENIDE
    5.4.1.1 Applications
  5.4.2 CADMIUM SULFIDE
    5.4.2.1 Applications
  5.4.3 CADMIUM TELLURIDE
    5.4.3.1 Applications
  5.4.4 INDIUM ARSENIDE
    5.4.4.1 Applications
  5.4.5 SILICON
  5.4.6 GRAPHENE
5.5 QUANTUM DOT MARKET, BY APPLICATION
  5.5.1 HEALTHCARE
  5.5.2 CONSUMER
  5.5.3 DEFENSE
  5.5.4 INDUSTRY
5.6 QUANTUM DOTS MARKET, BY REGION
  5.6.1 NORTH AMERICA
  5.6.2 EUROPE
  5.6.3 ASIA-PACIFIC
  5.6.4 ROW
5.7 COMPANY PROFILES

(Overview, Financial*, Products & Services, Strategy, and Developments)

  5.7.1 QD VISION INC.
  5.7.2 NANOSYS INC.

*Details might not be captured in case of unlisted companies.

6 FLEXIBLE BATTERY MARKET

6.1 INTRODUCTION
6.2 MARKET DYNAMICS
  6.2.1 DRIVERS
    6.2.1.1 Growing demand for wearable electronics
    6.2.1.2 Demand for thin and flexible batteries in electronic devices
    6.2.1.3 Increasing miniaturization of electronic devices
  6.2.2 RESTRAINTS
    6.2.2.1 Requirement for high initial investment
    6.2.2.2 Lack of standardization in the development of flexible batteries
  6.2.3 OPPORTUNITIES
    6.2.3.1 Implementation of flexible lithium-air batteries in next-generation wearable electronics
    6.2.3.2 Huge opportunity for thin and flexible battery from Internet of Things
  6.2.4 CHALLENGES
    6.2.4.1 Fabrication of flexible lithium ion batteries
    6.2.4.2 Absence of material that can provide sufficient power supply
6.3 FLEXIBLE BATTERY MARKET, BY TYPE
  6.3.1 THIN-FILM BATTERY
  6.3.2 PRINTED BATTERY
  6.3.3 CURVED BATTERY
  6.3.4 OTHER TYPES
6.4 FLEXIBLE BATTERY MARKET, BY CHARGEABILITY
  6.4.1 RECHARGEABLE BATTERY
  6.4.2 SINGLE-USE BATTERY
6.5 FLEXIBLE BATTERY MARKET, BY APPLICATION
  6.5.1 SMART PACKAGING
  6.5.2 SMART CARDS (E-CARDS)
  6.5.3 WEARABLE DEVICES
  6.5.4 MEDICAL DEVICES
  6.5.5 CONSUMER ELECTRONICS
  6.5.6 ENTERTAINMENT
  6.5.7 WIRELESS COMMUNICATION
  6.5.8 OTHER APPLICATIONS
6.6 FLEXIBLE BATTERY MARKET, BY REGION
  6.6.1 NORTH AMERICA
  6.6.2 EUROPE
  6.6.3 ASIA-PACIFIC
  6.6.4 ROW
6.7 COMPANY PROFILES
(Overview, Financial*, Products & Services, Strategy, and Developments)
  6.7.1 SAMSUNG SDI CO., LTD.
  6.7.2 STMICROELECTRONICS N.V.
*Details might not be captured in case of unlisted companies.

7 GRAPHENE MARKET

7.1 INTRODUCTION
7.2 MARKET DYNAMICS
  7.2.1 DRIVERS
    7.2.1.1 Increasing demand for graphene in the application sectors
    7.2.1.2 Increasing focus on R&D activities
  7.2.2 RESTRAINTS
    7.2.2.1 Lack of band gap
    7.2.2.2 Incapability of mass production
  7.2.3 OPPORTUNITIES
    7.2.3.1 Increasing patents
    7.2.3.2 Rising cross-industry collaboration
  7.2.4 CHALLENGES
    7.2.4.1 High production cost
7.3 GRAPHENE MARKET SIZE, BY TYPE
  7.3.1 GRAPHENE OXIDE (GO)
  7.3.2 GRAPHENE NANOPLATELETS
  7.3.3 OTHERS
7.4 GRAPHENE MARKET, BY APPLICATION
  7.4.1 ELECTRONICS
  7.4.2 COMPOSITES
  7.4.3 ENERGY
  7.4.4 COATINGS
  7.4.5 SENSORS
  7.4.6 CATALYSTS
  7.4.7 OTHERS
7.5 GRAPHENE MARKET, BY REGION
  7.5.1 NORTH AMERICA
  7.5.2 ASIA-PACIFIC
  7.5.3 EUROPE
  7.5.4 ROW
7.6 COMPANY PROFILES

(Overview, Financial*, Products & Services, Strategy, and Developments)

  7.6.1 GRAPHENE NANOCHEM PLC
  7.6.2 CVD EQUIPMENT CORPORATION

*Details might not be captured in case of unlisted companies.

8 SILICON CARBIDE IN SEMICONDUCTOR MARKET

8.1 INTRODUCTION
8.2 MARKET DYNAMICS
  8.2.1 DRIVERS
    8.2.1.1 The ability of SiC to perform in high temperature, power, and frequency
      8.2.1.1.1 High temperature
      8.2.1.1.2 High power
      8.2.1.1.3 High frequency
    8.2.1.2 The growing solar power market
    8.2.1.3 A Surge in demand for high resistant material
    8.2.1.4 Huge demand for high-voltage power semiconductor applications
    8.2.1.5 Demand from the military, defense, and aerospace sector
  8.2.2 RESTRAINTS
    8.2.2.1 Gallium Nitride- a huge competition to the silicon carbide based device market
  8.2.3 CHALLENGES
    8.2.3.1 Poor oxidation resistance at high temperatures expected to create a technical challenge
  8.2.4 OPPORTUNITIES
    8.2.4.1 Huge opportunities expected from the Automotive sector
8.3 SILICON CARBIDE MARKET, BY TECHNOLOGY
  8.3.1 SILICON CARBIDE SEMICONDUCTOR MARKET BY SIC POLYTYPES
    8.3.1.1 2h-sic semiconductors market
    8.3.1.2 3c-sic semiconductors market
    8.3.1.3 4h-sic semiconductors market
    8.3.1.4 6h-sic semiconductors market
  8.3.2 SILICON CARBIDE SEMICONDUCTOR MARKET BY SEMICONDUCTOR MATERIALS
    8.3.2.1 IV-IV sic semiconductors market
      8.3.2.1.1 SiC-on-Silicon semiconductors market
      8.3.2.1.2 SiC-on-Sapphire semiconductors market
      8.3.2.1.3 SiC-on-Graphite semiconductors market
      8.3.2.1.4 SiC-on-Graphene semiconductors market
    8.3.2.2 III-V sic semiconductors market
      8.3.2.2.1 SiC-on-GaN semiconductors market
      8.3.2.2.2 SiC-on-A|N semiconductors market
      8.3.2.2.3 Composite materials-based SiC semiconductors market
      8.3.2.2.4 Alloy materials-based SiC semiconductors market
8.4 SILICON CARBIDE MARKET, BY PRODUCT
  8.4.1 SIC POWER SEMICONDUCTORS MARKET
    8.4.1.1 SiC power semiconductor devices and invertors
    8.4.1.2 SiC power diodes
    8.4.1.3 SiC power discrete market
  8.4.2 SIC OPTOSEMICONDUCTORS MARKET
  8.4.3 SIC HIGH-TEMPERATURE SEMICONDUCTORS MARKET
8.5 SILICON CARBIDE MARKET, BY APPLICATION
  8.5.1 AUTOMOTIVE SECTOR
    8.5.1.1 ELECTRIC VEHICLES & HYBRID ELECTRIC VEHICLES (HEVS)
    8.5.1.2 AUTOMOTIVE BRAKING SYSTEMS
    8.5.1.3 Automobile motor drives
  8.5.2 AEROSPACE AND DEFENSE
    8.5.2.1 Combat vehicles
    8.5.2.2 Ships & vessels
    8.5.2.3 Microwave radiation applications
    8.5.2.4 Radiation-hard electronics
  8.5.3 COMPUTERS
    8.5.3.1 Computer Hardware Power Modules
    8.5.3.2 UPS systems
  8.5.4 CONSUMER ELECTRONICS
    8.5.4.1 Inverters
    8.5.4.2 Led (Light Emitting diode) lighting
    8.5.4.3 Smps (Switch mode power supply)
  8.5.5 ICT (INFORMATION & COMMUNICATION TECHNOLOGY)
    8.5.5.1 Signal amplifiers and switching systems
    8.5.5.2 Wireless application devices
    8.5.5.3 Wired communication devices
    8.5.5.4 Satellite communication applications
    8.5.5.5 Radar applications
    8.5.5.6 RF (Radio Frequency) applications
  8.5.6 INDUSTRIAL SECTOR
    8.5.6.1 Industrial motor drives
    8.5.6.2 Commercial Motor Drives
    8.5.6.3 Electro-Mechanical Computing Systems
    8.5.6.4 High-Temperature Electronics & Sensors
  8.5.7 MEDICAL & HEALTHCARE
    8.5.7.1 Implantable Medical Devices
    8.5.7.2 Bio-medical Electronics
  8.5.8 POWER SECTOR
    8.5.8.1 Smart grid power systems
    8.5.8.2 Power factor correction (PFC) system
    8.5.8.3 Power distribution systems
    8.5.8.4 High Voltage Direct Current (HVDC) Systems
  8.5.9 RAILWAYS
    8.5.9.1 Railway traction
  8.5.10 SOLAR & WIND POWER SECTOR
    8.5.10.1 Wind turbines and wind power systems
    8.5.10.2 Photovoltaic (PV) inverters
    8.5.10.3 Solar Panels
  8.5.11 OTHERS
    8.5.11.1 Astronomy
    8.5.11.2 Pyrometer
8.6 SILICON CARBIDE MARKET, BY REGION
  8.6.1 NORTH AMERICA
  8.6.2 EUROPE
  8.6.3 ASIA-PACIFIC
  8.6.4 ROW
8.7 COMPANY PROFILES

(Overview, Financial*, Products & Services, Strategy, and Developments)

  8.7.1 RENESAS ELECTRONICS CORPORATION
  8.7.2 TOSHIBA CORPORATION

*Details might not be captured in case of unlisted companies.

9 3D IC & 2.5D IC PACKAGING MARKET

9.1 INTRODUCTION
9.2 MARKET DYNAMICS
  9.2.1 DRIVERS
    9.2.1.1 Increasing need for advanced architecture in electronic products
    9.2.1.2 Rising trend of miniaturization of electronics devices
    9.2.1.3 Growing market for smartphones, tablets, and gaming devices
  9.2.2 RESTRAINTS
    9.2.2.1 Higher level of integration results in thermal issues
    9.2.2.2 High unit cost of 3D IC and 2.5D IC packages
  9.2.3 OPPORTUNITIES
    9.2.3.1 Growing adoption of high-end computing, servers, and data centers
  9.2.4 CHALLENGES
    9.2.4.1 Effective supply chain management
9.3 3D IC AND 2.5D IC PACKAGING MARKET, BY PACKAGING TECHNOLOGY
  9.3.1 3D WAFER-LEVEL CHIP-SCALE PACKAGING (WLCSP)
  9.3.2 3D TSV
  9.3.3 2.5D
9.4 3D IC AND 2.5D IC PACKAGING MARKET, BY APPLICATION
  9.4.1 LOGIC
  9.4.2 IMAGING & OPTOELECTRONICS
  9.4.3 MEMORY
  9.4.4 MEMS/SENSORS
  9.4.5 LED
  9.4.6 POWER, ANALOG & MIXED SIGNAL, RF, PHOTONICS
9.5 3D IC AND 2.5D IC PACKAGING MARKET, BY END-USER INDUSTRY
  9.5.1 CONSUMER ELECTRONICS
  9.5.2 TELECOMMUNICATION
  9.5.3 INDUSTRIAL SECTOR
  9.5.4 AUTOMOTIVE
  9.5.5 MILITARY & AEROSPACE
  9.5.6 SMART TECHNOLOGIES
  9.5.7 MEDICAL DEVICES
9.6 3D IC AND 2.5D IC PACKAGING MARKET, BY REGION
  9.6.1 APAC
  9.6.2 NORTH AMERICA
  9.6.3 EUROPE
  9.6.4 REST OF THE WORLD
9.7 COMPANY PROFILES

(Overview, Financial*, Products & Services, Strategy, and Developments)

  9.7.1 TAIWAN SEMICONDUCTOR MANUFACTURING COMPANY LIMITED
  9.7.2 SAMSUNG ELECTRONICS CO., LTD.

*Details might not be captured in case of unlisted companies.

10 ORGANIC ELECTRONICS MARKET

10.1 INTRODUCTION
10.2 MARKET DYNAMICS
  10.2.1 DRIVERS
    10.2.1.1 Rapidly growing consumer electronics industry transforms organic electronics market
    10.2.1.2 Improved performance and sustainable technology accelerates the growth of the organic electronics market
    10.2.1.3 Emerging functionalities and applications driving the growth of the organic electronics market
  10.2.2 RESTRAINTS
    10.2.2.1 Competing technologies
    10.2.2.2 Low electrical conductivity
  10.2.3 OPPORTUNITIES
    10.2.3.1 Penetration into multiple applications
      10.2.3.1.1 Military
      10.2.3.1.2 Digital signage
  10.2.4 CHALLENGES
    10.2.4.1 Complex and time consuming fabrication of large panel OLED displays
10.3 ORGANIC ELECTRONICS MARKET, BY MATERIAL
  10.3.1 SEMICONDUCTOR MATERIAL
    10.3.1.1 Small Molecules
    10.3.1.2 Polymers
  10.3.2 CONDUCTIVE MATERIALS
    10.3.2.1 Organic
    10.3.2.2 Inorganic
  10.3.3 DIELECTRIC MATERIALS
    10.3.3.1 Polycarbonate
    10.3.3.2 PMMA
    10.3.3.3 PP
    10.3.3.4 PVA
    10.3.3.5 PET
  10.3.4 SUBSTRATE MATERIALS
    10.3.4.1 Glass Substrates
    10.3.4.2 Plastic substrates
    10.3.4.3 Metal Foil
10.4 ORGANIC ELECTRONICS MARKET, BY APPLICATION
  10.4.1 DISPLAY APPLICATION
    10.4.1.1 OLED displays
    10.4.1.2 Electrochromic
    10.4.1.3 Electroluminescent
    10.4.1.4 Electrophoretic
  10.4.2 OLED LIGHTING APPLICATION
  10.4.3 ORGANIC PHOTOVOLTAIC APPLICATION
  10.4.4 SYSTEM COMPONENTS APPLICATION
    10.4.4.1 Logic & Memory Devices
    10.4.4.2 Organic Sensors
    10.4.4.3 Conductive Ink
    10.4.4.4 Organic Radio Frequency Identification (ORFID) Tags
    10.4.4.5 Printed Batteries
  10.4.5 OTHER ORGANIC ELECTRONICS APPLICATIONS
    10.4.5.1 Smart Applications
    10.4.5.2 Disposable Electronics
    10.4.5.3 Paper Substrates
    10.4.5.4 Organic Transistors
10.5 ORGANIC ELECTRONICS MARKET, BY REGION
  10.5.1 NORTH AMERICA
  10.5.2 EUROPE
  10.5.3 ASIA-PACIFIC
  10.5.4 ROW
10.6 COMPANY PROFILES

(Overview, Financial*, Products & Services, Strategy, and Developments)

  10.6.1 UNIVERSAL DISPLAY CORPORATION (UDC) (ORGANIC MATERIAL SUPPLIER)
  10.6.2 BASF SE (ORGANIC MATERIAL SUPPLIER)
  10.6.3 SAMSUNG DISPLAY (DISPLAY PANEL MANUFACTURER)

*Details might not be captured in case of unlisted companies.

11 CARBON NANOTUBES MARKET

11.1 INTRODUCTION
11.2 MARKET DYNAMICS
  11.2.1 DRIVERS
    11.2.1.1 Superior Properties
    11.2.1.2 Surging Demand From End-Use Industries
    11.2.1.3 Technological Advancements And Feasible Scenarios
11.3 RESTRAINTS
    11.3.1.1 Health & Safety Issues
    11.3.1.2 High Price & Processing Difficulties
    11.3.1.3 Purification Required
11.4 OPPORTUNITIES
    11.4.1.1 Growing Opportunities In The Emerging Applications
    11.4.1.2 Increasing Application Areas As Prices Decrease
    11.4.1.3 Opportunities In The Emerging Economies
11.5 CHALLENGES
    11.5.1.1 Quality Issues
11.6 CARBON NANOTUBES MARKET, BY TYPE
  11.6.1 SINGLE-WALLED CARBON NANOTUBES (SWCNTS)
  11.6.2 MULTI-WALLED CARBON NANOTUBES (MWCNTS)
11.7 CARBON NANOTUBES MARKET, BY APPLICATION
  11.7.1 ELECTRONICS & SEMICONDUCTORS
  11.7.2 CHEMICAL & POLYMERS
  11.7.3 BATTERIES & CAPACITORS
  11.7.4 ENERGY
  11.7.5 MEDICAL APPLICATION
  11.7.6 ADVANCED MATERIALS APPLICATION
  11.7.7 AEROSPACE & DEFENSE APPLICATIONS
  11.7.8 OTHERS
11.8 CARBON NANOTUBES MARKET, BY REGION
  11.8.1 ASIA-PACIFIC
  11.8.2 NORTH AMERICA
  11.8.3 EUROPE
  11.8.4 ROW
11.9 COMPANY PROFILES

(Overview, Financial*, Products & Services, Strategy, and Developments)

  11.9.1 ARKEMA S.A.
  11.9.2 HANWHA CHEMICAL CO. LTD.

*Details might not be captured in case of unlisted companies.

12 SMART GLASS MARKET

12.1 INTRODUCTION
12.2 MARKET DYNAMICS
  12.2.1 DRIVERS
    12.2.1.1 Optimal Energy Saving Performance
    12.2.1.2 Emerging eco-friendly / green buildings
    12.2.1.3 Robust demand from automotive sector
    12.2.1.4 Supportive government mandates and legislations
  12.2.2 RESTRAINTS
    12.2.2.1 Related performance issues
    12.2.2.2 Higher cost of smart glass
    12.2.2.3 Limited commercialization
    12.2.2.4 Lack of awareness of long term benefits
  12.2.3 OPPORTUNITIES
    12.2.3.1 Increasing demand for energy efficient products
    12.2.3.2 Emerging applications –power generation plant (solar)
    12.2.3.3 Tapping potential avenues
  12.2.4 CHALLENGES
    12.2.4.1 High investment required for manufacturing and R&D
12.3 SMART GLASS MARKET, BY TECHNOLOGY
  12.3.1 TECHNOLOGICAL TRENDS
    12.3.1.1 Photovoltaic and OLED lighting
    12.3.1.2 3D Gorilla Glass
    12.3.1.3 Smart controls for smart glass
    12.3.1.4 Comparison of technologies
  12.3.2 LOW-E GLASS
  12.3.3 ACTIVE GLASS
    12.3.3.1 Suspended Particle Device Glass
    12.3.3.2 Electrochromic Glass
    12.3.3.3 Liquid crystals (LCs)/polymer dispersed liquid crystals (PDLCs) glass
    12.3.3.4 Micro-blinds
    12.3.3.5 Nanocrystals
  12.3.4 PASSIVE GLASS
    12.3.4.1 Photochromic glass
    12.3.4.2 Thermochromic glass
12.4 SMART GLASS MARKET, BY END-USE INDUSTRY
  12.4.1 ARCHITECTURAL
    12.4.1.1 Commercial
    12.4.1.2 Residential
  12.4.2 TRANSPORTATION
    12.4.2.1 Automotive
    12.4.2.2 Bus/Rail
    12.4.2.3 Aerospace
    12.4.2.4 Marine
  12.4.3 POWER GENERATION PLANT (SOLAR)
  12.4.4 CONUSMER ELECTRONICS AND OTHERS
12.5 SMART GLASS MARKET, BY REGION
  12.5.1 NORTH AMERICA
  12.5.2 EUROPE
  12.5.3 ASIA-PACIFIC
  12.5.4 ROW
12.6 COMPANY PROFILES

(Overview, Financial*, Products & Services, Strategy, and Developments)

  12.6.1 SAGE ELECTROCHROMICS, INC.
  12.6.2 RESEARCH FRONTIERS INCORPORATED

*Details might not be captured in case of unlisted companies.

13 BIOCHIPS MARKET

13.1 INTRODUCTION
13.2 MARKET DYNAMICS
  13.2.1 DRIVERS
    13.2.1.1 Increasing adoption of personalized medicine
    13.2.1.2 Growing applications of biochips
    13.2.1.3 Technological advancements
  13.2.2 RESTRAINTS
    13.2.2.1 Unclear regulatory guidelines
    13.2.2.2 High instrumentation costs
    13.2.2.3 Absolute quantification of specific mRNA expressions
  13.2.3 OPPORTUNITIES
    13.2.3.1 Significant growth prospects in developing countries
    13.2.3.2 Biochip technology, a safe and economical alternative to animal testing
  13.2.4 CHALLENGES
    13.2.4.1 Complexity of biological systems
13.3 BIOCHIPS MARKET, BY TYPE
  13.3.1 DNA CHIPS
    13.3.1.1 DNA Chips Market, By Application
    13.3.1.2 Gene expression
    13.3.1.3 SNP Genotyping
    13.3.1.4 Cancer Diagnosis & Treatment
    13.3.1.5 Genomics
    13.3.1.6 Drug Discovery
    13.3.1.7 Agricultural Biotechnology
    13.3.1.8 Other DNA Chip Applications
  13.3.2 LAB-ON-A-CHIP
    13.3.2.1 Lab-on-A-chip Market, By Application
    13.3.2.2 Clinical Diagnostics
    13.3.2.3 Genomics
    13.3.2.4 IVD & POC
    13.3.2.5 Proteomics
    13.3.2.6 Drug Discovery
    13.3.2.7 Other LOAC Applications Market
  13.3.3 PROTEIN CHIPS
    13.3.3.1 Protein Chips Market, By Applications
    13.3.3.2 Proteomics
    13.3.3.3 Expression Profiling
    13.3.3.4 Diagnostics
    13.3.3.5 High-throughput Screening
    13.3.3.6 Drug Discovery
    13.3.3.7 Other Applications
  13.3.4 OTHER ARRAYS
    13.3.4.1 Cell Arrays
    13.3.4.2 Tissue Arrays
13.4 BIOCHIPS MARKET, BY FABRICATION TECHNOLOGY
  13.4.1 MICROARRAYS
  13.4.2 MICROFLUIDICS
13.5 BIOCHIPS MARKET, BY END USER
  13.5.1 BIOTECHNOLOGY AND PHARMACEUTICAL COMPANIES
  13.5.2 HOSPITALS AND DIAGNOSTICS CENTERS
  13.5.3 ACADEMIC & RESEARCH INSTITUTES
  13.5.4 OTHERS
13.6 BIOCHIPS MARKET, BY REGION
  13.6.1 NORTH AMERICA
  13.6.2 EUROPE
  13.6.3 ASIA-PACIFIC
  13.6.4 REST OF THE WORLD (ROW)
13.7 COMPANY PROFILE

(Overview, Financial*, Products & Services, Strategy, and Developments)

  13.7.1 THERMO FISHER SCIENTIFIC, INC.
  13.7.2 AGILENT TECHNOLOGIES, INC.

*Details might not be captured in case of unlisted companies.

14 APPENDIX

14.1 ADDITIONAL COMPANY PROFILE
  14.1.1 QUANTUM DOTS MARKET
    14.1.1.1 Quantum Material Corporation
    14.1.1.2 Nanoco Group Plc.
    14.1.1.3 QD Laser Inc.
    14.1.1.4 Altair Nanotechnologies Inc.
    14.1.1.5 Invisage Technologies Inc.
    14.1.1.6 Evident Technologies
    14.1.1.7 NN-Labs Llc
    14.1.1.8 Ocean Nanotech Llc
  14.1.2 3D IC & 2.5D IC PACKAGING MARKET
    14.1.2.1 Toshiba Corp.
    14.1.2.2 ASE Group
    14.1.2.3 Amkor Technology
    14.1.2.4 United Microelectronics Corp.
    14.1.2.5 STMicroelectronics NV
    14.1.2.6 Broadcom Ltd.
    14.1.2.7 Intel Corporation.
    14.1.2.8 Jiangsu Changjiang Electronics Technology Co., Ltd
  14.1.3 FLEXIBLE BATTERY MARKET
    14.1.3.1 LG Chem Ltd.
    14.1.3.2 Enfucell OY Ltd.
    14.1.3.3 Ultralife Corp.
    14.1.3.4 Blue Spark Technologies, Inc.
    14.1.3.5 Brightvolt Inc.
    14.1.3.6 Panasonic Corp.
    14.1.3.7 NEC energy solutions Inc.
    14.1.3.8 Rocket Electric co., Ltd.
    14.1.3.9 Guangzhou Fullriver Battery New Technology Co., Ltd.
  14.1.4 GRAPHENE MARKET
    14.1.4.1 Graphenea SA
    14.1.4.2 Grafoid Inc.
    14.1.4.3 Haydale Graphene Industries Plc
    14.1.4.4 2D Carbon tech inc., ltd.
    14.1.4.5 Group Nanoxplore Inc.
    14.1.4.6 Thomas Swan & Co., Ltd.
    14.1.4.7 Vorbeck Materials
    14.1.4.8 XG Sciences Inc.
  14.1.5 ORGANIC ELECTRONICS MARKET
    14.1.5.1 AU optronics corporation (Display Panel Manufacturer)
    14.1.5.2 Sumitomo Corporation (Organic Material Supplier)
    14.1.5.3 Dupont (E. I. du Pont de Nemours and Company) (Organic Material Supplier)
    14.1.5.4 LG Display (Display Panel Manufacturer)
    14.1.5.5 Merck KGAA (organic material supplier)
    14.1.5.6 Novaled Gmbh (Organic Material Supplier)
    14.1.5.7 Koninklijke Philips N.V. (end user)
    14.1.5.8 Sony COrporation (end user)
  14.1.6 CARBON NANOTUBES MARKET
    14.1.6.1 Kumho Petrochemical
    14.1.6.2 Showa Denko K.K.
    14.1.6.3 Toray Industries, Inc.
    14.1.6.4 Cnano Technology Limited
    14.1.6.5 Nanocyl S.A.
    14.1.6.6 Hyperion Catalysis International Inc.
    14.1.6.7 Arry International Group Limited
    14.1.6.8 Carbon Solutions, Inc.
    14.1.6.9 Cheap Tubes Inc.
    14.1.6.10 Cnt Co., Ltd.
    14.1.6.11 Continental Carbon Company
    14.1.6.12 Klean Carbon Inc.
    14.1.6.13 Nano-C Inc.
    14.1.6.14 NanoIntegris Inc.
    14.1.6.15 Nanolab Inc.
    14.1.6.16 Nanoshel LLC
    14.1.6.17 Nanothinx S.A.
    14.1.6.18 SouthWest NanoTechnologies, Inc.
    14.1.6.19 Thomas Swan & Co. Ltd.
  14.1.7 SMART GLASS MARKET
    14.1.7.1 View Inc.
    14.1.7.2 PPG Industries
    14.1.7.3 Asahi Glass Co. Ltd.
    14.1.7.4 Gentex Corporation
    14.1.7.5 Hitachi Chemical Co. Ltd.
    14.1.7.6 Glass apps LLC
    14.1.7.7 Pleotint, LLC
    14.1.7.8 Ravenbrick LLC
    14.1.7.9 Scienstry Inc.
    14.1.7.10 SmartGlass International Ltd.
    14.1.7.11 SPD Control System Corporation
  14.1.8 BIOCHIPS MARKET
    14.1.8.1 Abbott Laboratories
    14.1.8.2 Perkinelmer, Inc.
    14.1.8.3 Fluidigm Corporation
    14.1.8.4 Illumina, Inc.
    14.1.8.5 Ge Healthcare
    14.1.8.6 Bio-Rad Laboratories Inc.
    14.1.8.7 Cepheid Inc.
    14.1.8.8 Roche Diagnostics
  14.1.9 G. FAST CHIPSET MARKET
    14.1.9.1 Qualcomm, Inc.
    14.1.9.2 Metanoia Communications, Inc.
    14.1.9.3 Chunghwa Telecom Co., Ltd.
    14.1.9.4 CenturyLink, Inc.
    14.1.9.5 BT Group plc
    14.1.9.6 Swisscom AG
    14.1.9.7 Mediatek, Inc.
    14.1.9.8 Marvell Technology Group LTD.
  14.1.10 SILICON CARBIDE IN SEMICONDUCTOR MARKET
    14.1.10.1 Cree Incorporated
    14.1.10.2 Fairchild Semiconductor International Inc.
    14.1.10.3 Genesic Semiconductor Inc.
    14.1.10.4 Infineon Technologies AG
    14.1.10.5 Microsemi Corporation
    14.1.10.6 Norstel AB
    14.1.10.7 Rohm Co. Ltd.
    14.1.10.8 Stmicroelectronics N.V
14.2 DISCUSSION GUIDE
14.3 KNOWLEDGE STORE: MARKETSANDMARKETS SUBSCRIPTION PORTAL
14.4 INTRODUCING RT: REAL TIME MARKET INTELLIGENCE
14.5 AVAILABLE CUSTOMIZATIONS
14.6 RELATED REPORTS
14.7 AUTHOR DETAILS

LIST OF TABLES

Table 1 GLOBAL G. FAST CHIPSET MARKET, 2014-2021
Table 2 INTERNET SPEED NEEDED FOR VARIOUS RESIDENTIAL APPLICATIONS
Table 3 G.FAST CHIPSET MARKET, BY DEPLOYMENT TYPE, 2014–2021 (USD MILLION)
Table 4 G.FAST CHIPSET MARKET, BY END USER, 2014–2021 (USD MILLION)
Table 5 G.FAST CHIPSET MARKET, BY COPPER-LINE LENGTH, 2014–2021 (USD MILLION)
Table 6 G.FAST CHIPSET MARKET, BY REGION, 2014–2021 (USD MILLION)
Table 7 GLOBAL QUANTUM DOTS MARKET SIZE, 2014–2021
Table 8 GLOBAL QD MARKET SIZE, BY PRODUCTS (2014-2021), (USD MILLION)
Table 9 QUANTUM DOTS MARKET SIZE, BY MATERIAL , 2014-2021 (USD MILLION)
Table 10 GLOBAL QUANTUM DOT MARKET SIZE, BY APPLICATION, 2014-2021 (USD MILLION)
Table 11 QUANTUM DOTS MARKET SIZE, BY REGION, 2014–2021 (USD MILLION)
Table 12 GLOBAL FLEXIBLE BATTERY MARKET SIZE, 2014–2021 (USD MILLION)
Table 13 FLEXIBLE BATTERY MARKET, BY TYPE, 2014–2021 (USD MILLION)
Table 14 FLEXIBLE BATTERY MARKET, BY TYPE, 2014–2021 (MILLION UNITS)
Table 15 FLEXIBLE BATTERY MARKET, BY CHARGEABILITY, 2014–2021 (USD MILLION)
Table 16 FLEXIBLE BATTERY MARKET SIZE, BY APPLICATION, 2014–2021 (USD MILLION)
Table 17 FLEXIBLE BATTERY MARKET, BY REGION, 2014–2021 (USD MILLION)
Table 18 GLOBAL GRAPHENE MARKET SIZE, 2014–2021
Table 19 GRAPHENE MARKET SIZE, BY TYPE, 2014–2021 (USD MILLION)
Table 20 GRAPHENE MARKET SIZE, BY TYPE, 2013–2020 (TON)
Table 21 GRAPHENE MARKET SIZE, BY APPLICATION, 2014–2021 (USD MILLION)
Table 22 GRAPHENE MARKET SIZE, BY APPLICATION, 2015–2020 (TON)
Table 23 GRAPHENE MARKET SIZE, BY REGION, 2014–2021 (USD MILLION)
Table 24 GRAPHENE MARKET SIZE, BY REGION, 2013–2020 (TONS)
Table 25 GLOBAL SILICON CARBIDE MARKET SIZE, 2014–2021
Table 26 PROPERTIES OF SIC MATERIALS & COMPETITOR MATERIALS
Table 27 SIC MARKET SIZE, BY POLYMER TYPE, 2014-2021 (USD MILLION)
Table 28 SIC MARKET SIZE, BY SEMICONDUCTOR MATERIAL, 2014-2021 (USD MILLION)
Table 29 SILICON CARBIDE MARKET, BY PRODUCT, 2014-2021 (USD MILLION)
Table 30 SILICON CARBIDE MARKET, BY APPLICATION, 2014-2021 (USD MILLION)
Table 31 SILICON CARBIDE MARKET, BY REGION, 2014-2021 (USD MILLION)
Table 32 GLOBAL 3D IC & 2.5D IC PACKAGING MARKET SIZE, 2014–2021
Table 33 3D IC AND 2.5D IC PACKAGING MARKET, BY PACKAGING TECHNOLOGY, 2014–2021 (USD MILLION)
Table 34 3D IC AND 2.5D IC PACKAGING MARKET, BY APPLICATION, 2014–2021 (USD MILLION)
Table 35 3D IC AND 2.5D IC WAFER (12” EQ.) MARKET, BY APPLICATION, 2014–2021 (THOUSAND UNITS)
Table 36 3D IC AND 2.5D IC PACKAGING MARKET, BY END-USER INDUSTRY, 2014–2021 (USD MILLION)
Table 37 3D IC AND 2.5D IC PACKAGING MARKET, BY REGION, 2014–2021 (USD MILLION)
Table 38 GLOBAL ORGANIC ELECTRONICS MARKET SIZE, 2014–2021
Table 39 ORGANIC ELECTRONICS MARKET, BY MATERIAL, 2014-2021 (USD MILLION)
Table 40 GLOBAL ORGANIC ELECTRONICS MARKET SIZE, BY APPLICATION, 2014-2021 (USD MILLION)
Table 41 ORGANIC ELECTRONICS MARKET SIZE, BY REGION, 2014–2021 (USD MILLION)
Table 42 GLOBAL CARBON NANOTUBES MARKET SIZE, BY REGION, 2014–2021
Table 43 MECHANICAL PROPERTIES CNTS V/S OTHER MATERIAL PROPERTIES
Table 44 CNTS PRICES COMPARISON WITH OTHER COMPETITIVE MATERIALS
Table 45 CNTS: FUTURE APPLICATIONS
Table 46 CARBON NANOTUBES MARKET SIZE, BY TYPE, 2014–2021 (USD MILLION)
Table 47 CARBON NANOTUBES MARKET SIZE, BY TYPE, 2014–2021 (TON)
Table 48 CARBON NANOTUBES MARKET SIZE, BY APPLICATION, 2014-2021 (USD MILLION)
Table 49 CARBON NANOTUBES MARKET SIZE, BY APPLICATION, 2014–2021 (TON)
Table 50 CARBON NANOTUBES MARKET SIZE, BY REGION, 2014–2021 (USD MILLION)
Table 51 CARBON NANOTUBES MARKET SIZE, BY REGION, 2014–2021 (TON)
Table 52 GLOBAL SMART GLASS MARKET SIZE, 2014–2021
Table 53 SMART GLASS MARKET SIZE, BY TECHNOLOGY, 2014–2021 (USD MILLION)
Table 54 SMART GLASS MARKET SIZE, BY TECHNOLOGY, 2014–2021 (MILLION UNITS)
Table 55 SMART GLASS CHARACTERISTICS, BY TECHNOLOGY
Table 56 SPD GLASS PRODUCT SPECIFICATION
Table 57 LC PRODUCT SPECIFICATIONS
Table 58 TECHNOLOGICAL CHALLENGES AND SHORTCOMINGS OF PHOTOCHROMIC GLASS
Table 59 GLOBAL SMART GLASS MARKET, BY END-USE INDUSTRY, 2014–2021 (USD MILLION)
Table 60 GLOBAL SMART GLASS MARKET SIZE, BY REGION, 2014–2021 (USD MILLION)
Table 61 GLOBAL BIOCHIPS MARKET, 2014-2021
Table 62 BIOCHIPS MARKET SIZE, BY TYPE, 2014–2021 (USD MILLION)
Table 63 DNA CHIPS MARKET SIZE, BY APPLICATION, 2013–2020 (USD MILLION)
Table 64 LAB-ON-A-CHIP MARKET SIZE, BY APPLICATION, 2014–2021 (USD MILLION)
Table 65 PROTEIN CHIPS MARKET SIZE, BY APPLICATION, 2014–2021 (USD MILLION)
Table 66 OTHER ARRAYS MARKET SIZE, BY TYPE, 2013–2020 (USD MILLION)
Table 67 BIOCHIP MARKET SIZE, BY FABRICATION TECHNOLOGY, 2014–2021 (USD MILLION)
Table 68 BIOCHIPS MARKET SIZE, BY END USER, 2014–2021 (USD MILLION)
Table 69 BIOCHIPS MARKET SIZE, BY REGION, 2014–2021 (USD MILLION)

LIST OF FIGURES

Figure 1 TOP 10 ADVANCED MATERIALS & TECHNOLOGIES IN ELECTRONICS: RESEARCH DESIGN
Figure 2 BOTTOM-UP APPROACH
Figure 3 TOP-DOWN APPROACH
Figure 4 RESEARCH METHODOLOGY: DATA TRIANGULATION
Figure 5 CPE DEPLOYMENT TO HOLD A LARGER SHARE OF THE G.FAST CHIPSET MARKET BY 2021
Figure 6 QUANTUM DOTS MARKET, BY APPLICATION, 2021
Figure 7 DEMAND IN CONSUMER ELECTRONICS EXPECTED TO CREATE ATTRACTIVE GROWTH OPPORTUNITIES IN THE FLEXIBLE BATTERY MARKET
Figure 8 GRAPHENE OXIDE PROJECTED TO DOMINATE THE GRAPHENE MARKET, BY TYPE
Figure 9 SILICON CARBIDE IN SEMICONDUCTOR MARKET, BY PRODUCT (USD MILLION)
Figure 10 ASIA-PACIFIC TO DOMINATE THE 3D IC & 2.5D IC PACKAGING MARKET IN 2015
Figure 11 GLOBAL ORGANIC ELECTRONICS MARKET, BY MATERIAL, 2013
Figure 12 ASIA-PACIFIC TO DOMINATE THE CARBON NANOTUBES MARKET BETWEEN 2016 & 2021
Figure 13 GLOBAL SMART GLASS MARKET, BY REGION,2015
Figure 14 HOSPITALS AND DIAGNOSTICS CENTERS SEGMENT DOMINATED THE BIOCHIPS END-USER MARKET IN 2015
Figure 15 INCREASED COMPETITION AMONG BROADBAND SERVICE PROVIDERS IS DRIVING THE G.FAST CHIPSET MARKET
Figure 16 LAST 200 METERS DEPLOYMENT COST FOR FTTH AND G.FAST
Figure 17 BROADCOM LTD: COMPANY SNAPSHOT
Figure 18 BROADCOM LTD: SWOT ANALYSIS
Figure 19 SWOT ANALYSIS: SCKIPIO TECHNOLOGIES SI LTD.
Figure 20 GROWING DEMAND OF QUANTUM DOTS FOR SUPERIOR PERFORMANCE AND RESOLUTION QUALITY IS THE MAIN DRIVER
Figure 21 QUANTUM DOTS MARKET SEGMENTATION, BY PRODUCT TYPE
Figure 22 SWOT ANALYSIS: QD VISION, INC.
Figure 23 NANOSYS INC.: SWOT ANALYSIS
Figure 24 FLEXIBLE BATTERY MARKET DYNAMICS
Figure 25 MARKET FOR WEARABLE TECHNOLOGY (2013–2020)
Figure 26 FLEXIBLE BATTERY MARKET, BY APPLICATION
Figure 27 SAMSUNG SDI CO., LTD.: COMPANY SNAPSHOT
Figure 28 SAMSUNG SDI CO., LTD.: SWOT ANALYSIS
Figure 29 STMICROELECTRONICS N.V.: COMPANY SNAPSHOT
Figure 30 STMICROELECTRONICS N.V.: SWOT ANALYSIS
Figure 31 DRIVERS, RESTRAINTS, OPPORTUNITIES, AND CHALLENGES IN GRAPHENE MARKET
Figure 32 GRAPHENE NANOCHEM PLC: COMPANY SNAPSHOT
Figure 33 GRAPHENE NANOCHEM PLC: SWOT ANALYSIS
Figure 34 CVD EQUIPMENT CORPORATION: COMPANY SNAPSHOT
Figure 35 CVD EQUIPMENT CORPORATION: SWOT ANALYSIS
Figure 36 SIC SEMICONDUCTOR DEVICES MARKET, BY TECHNOLOGY
Figure 37 SIC SEMICONDUCTOR MARKET BY PRODUCT
Figure 38 SILICON CARBIDE MARKET, BY APPLICATION
Figure 39 RENESAS ELECTRONICS CORP.: COMPANY SNAPSHOT
Figure 40 RENESAS ELECTRONICS CORPORATION: SWOT ANALYSIS
Figure 41 TOSHIBA CORPORATION: COMPANY SNAPSHOT
Figure 42 TOSHIBA CORPORATION: SWOT ANALYSIS
Figure 43 RISING TREND OF MINIATURIZATION OF ELECTRONIC DEVICES IS THE MAJOR DRIVER FOR THE 3D IC AND 2.5D IC PACKAGING MARKET
Figure 44 TSMC LTD.: COMPANY SNAPSHOT
Figure 45 TSMC LTD. (TAIWAN): SWOT ANALYSIS
Figure 46 SAMSUNG ELECTRONICS CO., LTD. (SOUTH KOREA): COMPANY SNAPSHOT
Figure 47 SAMSUNG ELECTRONICS CO., LTD. (SOUTH KOREA): SWOT ANALYSIS
Figure 48 RAPIDLY GROWING CONSUMER ELECTRONICS INDUSTRY WILL SPUR THE DEMAND FOR ORGANIC ELECTRONICS
Figure 49 THE SUBSTRATE MATERIALS SHARE IS THE HIGHEST IN THE ORGANIC MATERIALS MARKET
Figure 50 UNIVERSAL DISPLAY CORPORATION: BUSINESS OVERVIEW
Figure 51 UNIVERSAL DISPLAY CORPORATION: SWOT ANALYSIS
Figure 52 BASF SE: BUSINESS OVERVIEW
Figure 53 BASF SE: SWOT ANALYSIS
Figure 54 SAMSUNG ELECTRONICS CO., LTD.: BUSINESS OVERVIEW
Figure 55 SWOT ANALYSIS
Figure 56 DRIVERS, RESTRAINTS, OPPORTUNITIES, AND CHALLENGES IN CARBON NANOTUBES MARKET
Figure 57 ARKEMA S.A.: COMPANY SNAPSHOT
Figure 58 ARKEMA S.A.: SWOT ANALYSIS
Figure 59 HANWHA CHEMICAL CO. LTD.: COMPANY SNAPSHOT
Figure 60 HANWHA CHEMICAL CO. LTD.: SWOT ANALYSIS
Figure 61 ENERGY SAVING PERFORMANCE AND EMERGING GREEN BUILDINGS TECHNOLOGY EXPECTED TO LEAD TO GROWTH OPPORTUNITIES IN THE SMART GLASS MARKET
Figure 62 SMART GLASS MARKET SEGMENTATION, BY TECHNOLOGY
Figure 63 SMART GLASS MARKET, BY END-USE INDUSTRY
Figure 64 SAGE ELECTROCHROMICS INC.: SWOT ANALYSIS
Figure 65 RESEARCH FRONTIERS INCORPORATED: COMPANY SNAPSHOT
Figure 66 RFI: SWOT ANALYSIS
Figure 67 BIOCHIPS MARKET: DRIVERS, RESTRAINTS, OPPORTUNITIES AND CHALLENGES
Figure 68 THERMO FISHER SCIENTIFIC: COMPANY SNAPSHOT
Figure 69 AGILENT TECHNOLOGIES, INC.: COMPANY SNAPSHOT


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