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The Global Market for High Impact Nanomaterials: Nanocellulose, Carbon Nanotubes, Graphene and 2-D Nanomaterials

November 2014 | 539 pages | ID: G1403CAB02CEN
Future Markets, Inc.

US$ 2,350.00

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Many industries including electronics, automotive, aerospace, telecommunications and healthcare are exploring the use of high impact nanomaterials such as nanocellulose, carbon nanotubes and graphene. Other 2-D nanomaterials such as silicene, graphyne, graphdiyne, grapahane and molybdenum disulfide are under intense study. CNTs and graphene are the strongest, lightest and most conductive fibers known to man, with a performance- per-weight greater than any other material.

Nanocellulose, Carbon Nanotubes, Graphene and 2-D Nanomaterials

All of these materials possess outstanding properties and represent potentially the most economically viable and lucrative nanomaterials through to the middle of the next decade and beyond. Most are relatively new nanomaterials but are coming onto the market fast and will find widespread applications over the next decade in sectors such as composites, electronics, filtration, medical and life sciences, oil and energy, automotive, aerospace, coatings, military, consumer goods and sensors.

Nanocellulose

Nanocellulose is also being developed for use in novel applications ranging from scaffolds in tissue engineering, artificial skin and cartilage, wound healing and vessel substitutes to biodegradable food packaging. Applications in polymer reinforcement and anti-micro- bial films will be hitting the market soon. FP Innovations estimates the market to be worth $250 million in North America by 2020. The USDA has forecast the global market could amount to over 35 million tons per annum by 2040.

Carbon Nanotubes

Transparent conductors (TCs), battery additives and transistors rep- resent the most promising markets for CNTs. They are widely viewed as viable candidates as alternatives to Indium tin oxide (ITO) in TCs and the main candidate to replace silicon in transistors.

Graphene and 2-D Nanomaterials

The global market for graphene continues to growth with weekly technology and production breakthroughs, new investment and public listings of graphene producers. Driven by demand from markets where advanced materials are required, graphene promises to outstrip all current nanomaterials, especially in electronics and energy storage ap- plications. Other markets graphene is impacting include aerospace, automotive, coatings and paints, communications, sensors, solar, oil, and lubricants.

This 539 page report outlines the global scenario for these materials including:
  • Industry growth and prospects
  • Industry structure
  • Historical data
  • Market forecasts
  • Key market drivers and restraints
  • Technology roadmaps and application timelines
  • Producers, research centre and application developer profiles
NANOCELLULOSE

Market summary
Introduction to nanocellulose
Applications
Production methods
Regulations and standards
Nanocellulose Production Volumes
Nanocellulose Patents & Publications
Composites & packaging
Paper and board
Biomedicine
Coatings and paints
Rheology modifiers
Aerogels
Oil
Filtration
Nanocellulose producers & product developers
Prominent research centres

CARBON NANOTUBES

Market summary
Introduction to carbon nanotubes
Applications
Production methods
Production Volumes
Competing against graphene
Other 2-D Nanomaterials
Nanotubes Industry Developments 2013-2014
Energy
Aerospace
Automotive
Biomedicine
Coatings
Composites
Electronics
Sensors
Filtration
Adhesives
Catalysts
Textiles
Carbon nanotubes producers and product developers

GRAPHENE

Market summary
Introduction
Production methods
Graphene production volumes
Other 2-D Nanomaterials
Graphene Patents & Publications
Graphene Product Integration
Graphene Industry Developments 2013-2014
Energy
Aerospace
Automotive
Biomedicine
Coatings
Composites
Sensors
Electronics
Filtration
Adhesives
Catalysts
Graphene producers and product developers
Prominent research centres

TABLES

Table 1: Nanocellulose production capacities 2009-2014
Table 2: Volume estimates (tons) and penetration of nanocellulose into key markets
Table 3: Market summary for nanocellulose-Selling grade particle diameter, usage, advantages, average price/ ton, market estimates, global consumption, main current applications, future applications
Table 4: Properties of cellulose nanofibrils relative to metallic and polymeric materials
Table 5: Nanocellulose properties and applications thereof
Table 6: Types of nanocellulose-Preparation methods, resulting materials and applications
Table 7: Nanocellulose nanocrystal sources and scale
Table 8: Nanofibrillated cellulose production methods
Table 9: Cellulose nanocrystals production methods
Table 10: Safety of Micro/Nanofibrillated cellulose
Table 11: Nanocellulose production plants worldwide
Table 12: Specialty Cellulose Pulp Capacity-000s tons per year
Table 13: Nanocellulose production capacities/tons produced , tons per year, all types, 2009- 2014
Table 14: Nanocellulose producers and production capacity (Current and projected)
Table 15: Volume estimates (tons) and penetration of nanocellulose into key markets
Table 16: Published patent publications for nanocellulose, 1997-2013
Table 17: Research publications on nanocellulose materials and composites, 1996-2013
Table 18: Nanocellulose patents by field of application to 2013
Table 19: Example nanocellulose patents by organisation
Table 20: Nanocellulose patents by organisation, 2014
Table 21: Nanocellulose market supply chain
Table 22: Nanocellulose applications timeline in the composites and packaging markets
Table 23: Limitations of nanocellulose in the development of polymer nanocomposites
Table 24: Nanocellulose applications timeline in the paper and board markets
Table 25: Nanocellulose applications timeline in biomedicine
Table 26: Nanocellulose applications timeline in coatings and paints
Table 27: Nanocellulose applications timeline in rheology modification
Table 28: Nanocellulose applications timeline in the aerogels market
Table 29: Nanocellulose applications timeline in the oil industry
Table 30: Nanocellulose timeline applications in filtration
Table 31: Nanocellulose applications timeline in the flexible electronics and sensors sector
Table 32: Market summary for carbon nanotubes
Table 33: SWNTs-Markets, applications and current global market
Table 34: MWNTs-Markets, applications and current global market
Table 35: Comparative properties of graphene with nanoclays and carbon nanotubes
Table 36: Annual demand for carbon nanotubes, tons, conservative and optimistic estimates
Table 37: Carbon nanotube prices
Table 38: Annual production capacity of main carbon nanotubes producers
Table 39: Properties of carbon materials
Table 40: Addressable global market size for nanomaterials in batteries 2013, most promising applications areas
Table 41: Global revenue estimates for the energy market impacted by carbon nanotubes
Table 42: Global revenue estimates for the aerospace and aviation market impacted by carbon nanotubes
Table 43: Global revenue estimates for the automotive market impacted by carbon nanotubes
Table 44: Global revenue estimates for the medical and life sciences sectors impacted by carbon nanotubes
Table 45: Global revenue estimates for coatings sector impacted by carbon nanotubes
Table 46: Global revenue estimates for the composites market impacted by carbon nanotubes
Table 47: Properties of materials for transparent conducting film
Table 48: Global revenue estimates for the electronics market impacted by carbon nanotubes
Table 49: Global revenue estimates for the sensors market impacted by carbon nanotubes
Table 50: Global revenue estimates for the adhesives and sealants market impacted by carbon nanotubes
Table 51: Global revenue estimates for the catalysts market impacted by carbon nanotubes


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