Research and Markets has announced the addition of the "Graphene Materials for Opto & Electronic Applications 2014" report to their offering.
$141M GRAPHENE MATERIALS MARKET IN 2024 WILL BE DRIVEN MAINLY BY TRANSPARENT CONDUCTIVE ELECTRODES AND ENERGY STORAGE APPLICATIONS
Graphene is a two-dimensional (2D) material with exceptional properties, such as ultrahigh electrical and thermal conductivities, wide-range optical transmittance and excellent mechanical strength and flexibility. These properties make it a promising material for emerging and existing applications in printed & flexible circuitry, ultrafast transistors, touch screens, advanced batteries and supercapacitors, ultrafast lasers, photodetectors and many other non-electronic applications.
Although graphene technology is still in its infancy, remarkable progress has been made in the last few years developing graphene production methods. Numerous opto and electronic devices based on graphene have been demonstrated on lab-scale models. However, the numerous challenges of graphene technology should not be underestimated. The lack of bandgap in graphene is its key fundamental challenge. Other technology challenges are related to the development of industrial methods to produce graphene with high and consistent quality at acceptable costs.
Although today there is no graphene-based electronic application in mass production, several companies already offer commercially graphene materials. The graphene material market value in 2013 was about $11 million, represented principally by the demand for the R&D and prototyping. Two scenarios for the future market growth are presented in the report. According to the base scenario, the global annual market value for graphene materials in opto and electronic applications will reach $141 million in 2024, featuring a 2013-2019 CAGR of 18.5%. Accelerated market growth is expected after 2019, with a 2019-2024 CAGR of 35.7%. In 2024, the graphene material market will be represented mainly by the demand for transparent conductive electrodes and advanced batteries and supercapacitors.
HOW CAN GRAPHENE TECHNOLOGY CHALLENGES AND APPLICATION POTENTIAL BE TRANSFORMED INTO BUSINESS OPPORTUNITIES?
In order to reach the best possible performance on lab-scale devices, high quality materials are required. Material suppliers able to consistently deliver high-quality materials have a competitive advantage on the graphene market.
The booming interest in graphene technologies has led to a high demand on graphene equipment. As shown in the report, CVD equipment makers today mainly focus on the R&D equipment used to produce high-quality graphene.
Key Topics Covered:
1. Glossary
2. Executive summary
3. Introduction
4. Noteworthy news
5. Introduction to graphene material
6. Graphene applications
7. Printed & flexible circuiry
8. Semiconductor electronic devices
9. Transparent Conductive Electrodes (TCE)
10. Energy storage devices
11. Photonic devices
12. Other applications
13. Production of graphene materials
14. Graphene costs
15. Graphene material market forecast
16. Supply chain
17. Graphene R&D
18. Conclusions
19. 26 company profiles
Companies Mentioned:
- 2D-Tech
- AIXTRON
- AMO
- Angstron Materials
- Annealsys
- Applied Graphene Materials
- Bluestone Global Tech
- Cabot
- CalBattery
- CEA
- CrayoNano SA
- CVD Equipment
- Graphene Laboratories
- Graphene Platform
- Cambridge Graphene Platform
- Graphene Square
- Graphene Works
- Graphenea
- Graphensic
- Gwangju Institute of Science and Technology
- Haydale
- IBM
- IEMN
- IMEC
- Intel
- ITME
- Chalmers University of Technology
- LG
- Lomiko Metals
- Mason Graphite
- Nano Carbon
- NanoXplore
- National University of Singapore
- Nokia
- Oerlikon Leybold Vacuum
- Plasmionique
- Pohang University
- Princeton University
- Samsung
- PNNL
- SHT Smart High Tech
- Texas Instruments
- Thales
- Thomas Swan
- UC Santa Barbara
- UCLA
- University of Exeter
- University of Manchester
- University of Oxford
- VG Scienta
- Vorbeck Materials
- XG Sciences
For more information visit http://www.researchandmarkets.com/research/58fhj7/graphene