The Global Market for Nanocellulose: Opportunity, Markets, Applications, Technologies and Companies - Product Image

The Global Market for Nanocellulose: Opportunity, Markets, Applications, Technologies and Companies

  • ID: 3972136
  • Report
  • Region: Global
  • 261 Pages
  • Future Markets, Inc
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Nanocellulose Materials Possess Exceptional Physical and Chemical Properties, is Cheaper to Produce and Safer to Handle

The Global Market for Nanocellulose, fully updated and revised to November 2016, including an additional 40 pages of contents from the previous edition features:

  • Technology description, types of nanocellulose and production methods
  • Market structure, supply chain, patenting and publications
  • Production volumes, total, forecasted and by producer
  • Markets for nanocellulose, including composites, electronics, construction, paper and pulp, filtration, medicine and life sciences, paints, films, coatings, rheological modifiers, aerogels and oil and gas exploration
  • Opportunity assessment by market
  • Commercialization timelines, by market
  • Producer, research centre and application developer profiles
  • Assessment of economic prospects of the market for nanocellulose based on Future Markets assessment tools and company inputs

Nanocellulose can be produced from a variety of materials (vegetable matter, bamboo etc.) and after applying various pre-treatments, tailor-made nanofibrils with specific morphology and surface chemistry are produced. As well as being completely renewable, safer to handle, and cheaper to produce, nanocellulose materials also possess exceptional physical and chemical properties.

Today there is a substantial amount of research on nanocellulose and commercial development is on-going, including the construction of multi-ton capacity manufacturing facilities, mainly in North American, Japan and Europe. The market for nanocellulose continues to grow with new products on the market in 2015 and new production facilities coming on stream in 2016.

Nanocellulose is a prime candidate for use as a sustainable material in industries such as packaging that typically involves the high-energy intensity production of chemicals and synthetic polymers.

With appropriate conversion and extraction technologies, as well as modification and characterization, nanocellulose can be integrated into bio-based products such as strength enhancers in paper, polymer composite additives, emulsions and oxygen barrier films for plastics packaging. It will also add new impetus to the traditional paper and board industry and play a role in the future development of printable and flexible electronics.

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1 Research Methodology
1.1 Commercial Impact Rating System
1.2 Market Challenges Rating System

2 Executive Summary
2.1 Applications
2.2 Production
2.3 Market Drivers
2.3.1 Sustainable Materials
2.3.2 Improved Products
2.3.3 Unique Properties
2.3.4 Recent Improvements in Production and Product Integration
2.4 Market and Technical Challenges
2.4.1 Characterization
2.4.2 Production
2.4.3 Functionalization
2.4.4 Moisture Absorption and Aggregation
2.4.5 Scalability
2.4.6 Lack of Current Products
2.5 Market Size

3 Introduction
3.1 Properties of Nanomaterials
3.2 Categorization

4 Nanomaterials Regulations
4.1 Europe
4.1.1 Reach
4.1.2 Biocidal Products Regulation
4.1.3 National Nanomaterials Registers
4.1.4 Cosmetics Regulation
4.1.5 Food Safety
4.2 United States
4.2.1 Toxic Substances Control Act (TSCA)
4.3 Asia
4.3.1 Japan
4.3.2 South Korea
4.3.3 Taiwan
4.3.4 Australia

5 Nanocellulose
5.1 Types of Nanocellulose
5.1.1 Nanofibrillar Cellulose (NFC)
5.1.1.1 Applications
5.1.1.2 Production Methods
5.1.2 Nanocrystalline Cellulose (NCC)
5.1.2.1 Applications
5.1.2.2 Production Capacities
5.1.3 Bacterial Cellulose (BCC)
5.1.3.1 Applications
5.2 Synthesis of Cellulose Materials
5.2.1 Microcrystalline Cellulose (Mcc)
5.2.2 Microfibrillated Cellulose (MFC)
5.2.3 Nanofibrillated Cellulose (MFC)
5.2.4 Cellulose Nanocrystals (CNC)
5.2.5 Bacterial Cellulose Particles (CNC)
5.3 Properties of Nanocellulose
5.4 Advantages of Nanocellulose
5.5 Manufacture of Nanocellulose
5.6 Production Methods
5.6.1 Nanofibrillated Cellulose Production Methods
5.6.2 Nanocrystalline Celluose Production Methods

6 Nanocellulose Market Structure

7 SWOT Analysis for Nanocellulose

8 Regulations and Standards
8.1 Standards
8.1.1 International Standards Organization (ISO)
8.1.2 American National Standards
8.1.3 Csa Group
8.2 Toxicity
8.3 Regulation

9 Regional Initiatives and Government Funding

10 Nanocellulose Applications

11 Nanocellulose Technology Readiness Level (TRL)

12 Nanocellulose End User Market Segment Analysis
12.1 Production of Nanocellulose
12.1.1 Microfibrillated Cellulose
12.1.2 Cellulose Nanofiber Production
12.1.3 Cellulose Nanocrystal Production
12.1.4 Production Volumes, by Region
12.1.5 Prices
12.2 Nanocellulose Patents & Publications

13 Composites
13.1 Market Drivers and Trends
13.1.1 Growing Use of Polymer Composites
13.1.2 Increased Need for Advanced, Protective Materials
13.1.3 Improved Performance
13.1.4 Multi-Functionality
13.1.5 Growth in the Wind Energy Market
13.1.6 Environmental Impact of Carbon Fibers
13.1.7 Shortcomings of Natural Fiber Composites and Glass Fiber Reinforced Composites
13.2 Applications
13.2.1 Applications by Cellulose Type
13.2.2 Applications Timeline
13.2.3 Market Opportunity
13.2.4 Applications and Market Size
13.2.5 Biopackaging
13.2.5.1 Market Drivers and Trends
13.2.5.2 Applications
13.2.5.3 Market Size
13.2.5.4 Market Challenges
13.2.6 Aerospace
13.2.6.1 Market Drivers and Trends
13.2.6.2 Applications
13.2.6.3 Market Size
13.2.6.4 Market Challenges
13.2.7 Automotive
13.2.7.1 Market Drivers and Trends
13.2.7.2 Safety
13.2.7.3 Cost
13.2.7.4 Applications
13.2.7.5 Market Size
13.2.7.6 Market Challenges
13.2.8 Construction & Building
13.2.8.1 Market Drivers and Trends
13.2.8.2 Applications
13.2.8.3 Market Size
13.2.8.4 Market Challenges
13.2.9 Nanocellulose Product Developers in Composites

14 Paper & Board
14.1 Market Drivers and Trends
14.1.1 Environmental
14.1.2 Need to Develop Innovative New Products in the Paper and Board Industry
14.2 Applications
14.2.1.1 Paper Packaging
14.2.1.2 Paper Coatings
14.2.1.3 Anti-Microbials
14.3 Market Size
14.4 Nanocellulose Product Developers in Paper and Board

15 Medical & Healthcare
15.1 Market Drivers and Trends
15.1.1 Improved Drug Delivery for Cancer Therapy
15.1.2 Shortcomings of Chemotherapies
15.1.3 Biocompatibility of Medical Implants
15.1.4 Anti-Biotic Resistance
15.1.5 Growth in Advanced Woundcare Market
15.2 Applications
15.2.1.1 Drug Delivery
15.2.1.2 Medical Implants
15.2.1.3 Tissue Engineering
15.2.1.4 Wound Dressings
15.2.1.5 Laterial Flow Immunosay Labels
15.3 Market Size
15.4 Nanocellulose Product Developers in Medical and Healthcare

16 Coatings, Films & Paints
16.1 Market Drivers and Trends
16.1.1 Sustainable Coating Systems and Materials
16.1.2 Chemical to Bio-Based
16.1.3 Increased Demand for Abrasion and Scratch Resistant Coatings
16.1.4 Increased Demand for Uv-Resistant Coatings
16.1.5 Growth in Superhydrophobic Coatings Market
16.2 Applications
16.2.1 Abrasion and Scratch Resistance
16.2.2 Wood Coatings
16.2.3 Anti-Counterfeiting Films
16.2.4 Superhydrophobic Coatings
16.2.5 Gas Barriers
16.3 Market Size
16.4 Nanocellulose Product Developers in Coatings, Films and Paints

17 Aerogels
17.1 Market Drivers and Trends
17.1.1 Energy Efficiency
17.1.2 Demand for Environmentally-Friendly, Lightweight Materials
17.2 Market Size
17.3 Applications
17.3.1 Thermal Insulation
17.3.2 Medical
17.3.3 Shape Memory
17.4 Nanocellulose Product Developers in Aerogels

18 Oil and Gas Exploration
18.1 Market Drivers and Trends
18.1.1 Need to Reduce Operating Costs and Improve Operation Efficiency
18.1.2 Increased Demands of Drilling Environments
18.1.3 Increased Exploration in Extreme Environments
18.1.4 Environmental and Regulatory
18.2 Applications
18.2.1 Oil and Fracking Drilling Fluids
18.2.2 Extraction
18.3 Market Size
18.4 Market Challenges
18.5 Nanocellulose Product Developers in Oil and Gas Exploration

19 Filtration and Separation
19.1 Market Drivers and Trends
19.1.1 Need for Improved Membrane Technology
19.1.2 Water Shortage and Population Growth
19.1.3 Need for Improved and Low Cost Membrane Technology
19.1.4 Need for Improved Groundwater Treatment Technologies
19.1.5 Cost and Efficiency
19.1.6 Growth in the Air Filter Market
19.1.7 Need for Environmentally, Safe Filters
19.1.8 Recyclability of Polymer Membranes
19.2 Applications
19.2.1 Water Filtration
19.2.2 Air Filtration
19.2.3 Virus Filtration
19.3 Market Size
19.4 Market Challenges
19.5 Nanocellulose Product Developers in Filtration and Separation

20 Rheology Modifiers
20.1 Applications
20.1.1 Food
20.1.2 Pharmaceuticals
20.1.3 Cosmetics
20.2 Commercial Activity

21 Flexible Electronics
21.1 Market Drivers and Trends
21.1.1 Environmental
21.1.2 Flexible, Wearable and Paper Electronics Markets Growing
21.1.3 Need for Improved Barrier Function
21.2 Applications
21.2.1 Flexible Energy Storage
21.2.2 Conductive Inks
21.3 Market Size
21.4 Nanocellulose Product Developers in Flexible Electronics

22 3D Printing
22.1 Market Drivers
22.1.1 Improved Materials At Lower Cost
22.1.2 Limitations of Current Thermoplastics
22.2 Applications and Market Size
22.3 Market Challenges
22.4 Nanocellulose Product Developers in 3D Printing

23 Nanocellulose Company Profiles
23.1 Producers and Types of Nanocellulose Produced (NCF, NCC, BCC)
23.2 Target Markets for Producers 196- 240 (54 Company Profiles)

24 Main Nanocellulose Research Centres
24.1 Aalto University
24.2 AIST
24.3 Clark-Atlanta University
24.4 Colorado School of Mines
24.5 EMPA
24.6 Georgia Institute of Technology
24.7 Grenoble INP-Pagora
24.8 Icar-Central Institute for Research on Cotton Technology
24.9 Mcmaster University
24.10 North Carolina State University
24.11 Oregon State University
24.12 Paper and Fiber Research Institute (PFI)
24.13 Pennsylvania State University
24.14 Purdue University
24.15 Suny-ESF
24.16 Technical University of Lodz
24.17 University of Exeter
24.18 University of Fribourg
24.19 Uppsala University
24.20 Universidade Do Minho
24.21 University of Natural Resources and Life Sciences (Boku University)
24.22 University of Toronto
24.23 Other Research Centres/Groups

25 References
 
List of Tables
Table 1: Markets and Applications for Nanocellulose
Table 2: Nanocellulose Production Plants Worldwide and Production Status
Table 3: Potential Volume Estimates (Tons) and Penetration of Nanocellulose Into Key Markets
Table 4: Market Summary for Nanocellulose-Selling Grade Particle Diameter, Usage, Advantages, Average Price/Ton, Market Estimates, Global Consumption, Main Current Applications, Future Applications
Table 5: Categorization of Nanomaterials
Table 6: National Nanomaterials Registries in Europe
Table 7: Nanomaterials Regulatory Bodies in Australia
Table 8: Nanocellulose Properties
Table 9: Applications of Nanofibrillar Cellulose (NFC)
Table 10: Production Methods of NFC Producers
Table 11: Applications of Nanocrystalline Cellulose (NCC)
Table 12: Production Capacities of CNC Producers Per Annum in Tons, Current and Planned
Table 13: Applications of Bacterial Cellulose (BC)
Table 14: Microcrystalline Cellulose (Mcc) Preparation Methods, Resulting Materials and Applications
Table 15: Microfibrillated Cellulose (MFC) Preparation Methods, Resulting Materials and Applications
Table 16: Nanofibrillated Cellulose (MFC) Preparation Methods, Resulting Materials and Applications
Table 17: Cellulose Nanocrystals (MFC) Preparation Methods, Resulting Materials and Applications
Table 18: Cellulose Nanocrystals (MFC) Preparation Methods, Resulting Materials and Applications
Table 19: Properties and Applications of Nanocellulose
Table 20: Properties of Cellulose Nanofibrils Relative to Metallic and Polymeric Materials
Table 21: Nanocellulose Nanocrystal Sources and Scale
Table 22: Nanofibrillated Cellulose Production Methods
Table 23: Cellulose Nanocrystals (NCC) Production Methods
Table 24: Nanocellulose Market Structure
Table 25: Swot Analysis of Nanocellulose
Table 26: Safety of Micro/Nanofibrillated Cellulose
Table 27: Potential High Volume Impact of Nanocellulose and Likelihood of Market Impact
Table 28: Production Capacities of CNF Producers Per Annum in Tons, Current and Planned
Table 29: Production Capacities of CNC Producers Per Annum in Tons, Current and Planned
Table 30: Example Prices of Nanocellulose
Table 31: Published Patent Publications for Nanocellulose, 1997-2013
Table 32: Nanocellulose Patents as of May 2015
Table 33: Research Publications on Nanocellulose Materials and Composites, 1996-2013
Table 34: Nanocellulose Patents by Organisation
Table 35: Nanocellulose Patents by Organisation, 2014
Table 36: Main Patent Assignees for NCC, as of May 2015
Table 37: Main Patent Assignees for NFC, as of May 2015
Table 38: Main Patent Assignees for BCC, as of May 2015
Table 39: Comparative Properties of Polymer Composites Reinforcing Materials
Table 40: Comparative Properties of Polymer Composites Reinforcing Materials
Table 41: Equivalent Cost of Nanocellulose and Competitive Materials in Polymer Composites
Table 42: Applications of Nanocellulose in Polymer Composites by Cellulose Type
Table 43: Nanocellulose Applications Timeline in the Polymer Composites Market
Table 44: Nanocellulose in the Polymer Composites Market-Applications, Stage of Commercialization and Estimated Economic Impact
Table 45: Limitations of Nanocellulose in the Development of Polymer Nanocomposites
Table 46: Application Markets, Competing Materials, Nanocellulose Advantages and Current Market Size in Polymer Composites
Table 47: Examples of Antimicrobial Immobilization Into Cellulose Nanofibers
Table 48: Oxygen Permeability of Nanocellulose Films Compared to Those Made Form Commercially Available Petroleum Based Materials and Other Polymers
Table 49: Application Markets, Competing Materials, NFC Advantages and Current Market Size in Packaging
Table 50: Nanomaterials in the Packaging Market-Applications, Stage of Commercialization and Estimated Economic Impact
Table 51: Market Challenges Rating for Nanotechnology and Nanomaterials in the Packaging Market
Table 52: Nanomaterials in the Aerospace Market-Applications, Stage of Commercialization and Estimated Economic Impact
Table 53: Market Challenges Rating for Nanotechnology and Nanomaterials in the Aerospace Market
Table 54: Applications of Natural Fiber Composites in Vehicles by Manufacturers
Table 55: Application Markets, Competing Materials, Nanocellulose Advantages and Current Market Size in the Automotive Sector
Table 56: Nanotechnology and Nanomaterials in the Automotive Market-Applications, Stage of Commercialization and Estimated Economic Impact
Table 57: Applications and Commercilization Challenges in the Automotive Market
Table 58: Market Challenges Rating for Nanotechnology and Nanomaterials in the Automotive Market
Table 59: Nanotechnology and Nanomaterials in the Construction, Building Protection and Exterior Coatings Market-Applications, Stage of Commercialization and Estimated Economic Impact
Table 60: Market Challenges Rating for Nanotechnology and Nanomaterials in the Construction, Building Protection and Architectural Exterior Coatings Market
Table 61: Nanocellulose in Polymer Composites-Companies and Products
Table 62: Nanocellulose Applications Timeline in the Paper and Board Markets
Table 63: Global Packaging Market, Billions US$
Table 64: Nanocellulose Product Developers in Paper and Board
Table 65: Nanocellulose Applications Timeline in the Medical and Healthcare Markets
Table 66: Nanotechnology and Nanomaterials Opportunity in the Drug Formulation and Delivery Market-Applications, Stage of Commercialization and Estimated Economic Impact
Table 67: Nanotechnology and Nanomaterials Opportunity in Medical Implants and Devices Market-Applications, Stage of Commercialization and Estimated Economic Impact
Table 68: Nanotechnology and Nanomaterials Opportunity in the Wound Care Market-Applications, Stage of Commercialization and Estimated Economic Impact
Table 69: Nanocellulose Product Developers in Medical and Healthcare Applications
Table 70: Nanocellulose Applications Timeline in the Coatings and Paints Markets
Table 71: Application Markets, Competing Materials, Nanocellulose Advantages and Current Market Size in Coatings and Films
Table 72: Nanocellulose Product Developers in Coatings, Films and Paints
Table 73: Nanocellulose Applications Timeline in the Aerogels Market
Table 74: Nanocellulose Product Developers in Aerogels
Table 75: Nanocellulose Applications Timeline in the Oil Market
Table 76: Application Markets, Competing Materials, NFC Advantages and Current Market Size in Oil and Gas
Table 77: Nanotechnology and Nanomaterials in the Oil and Gas Market-Applications, Stage of Commercialization and Estimated Economic Impact
Table 78: Market Challenges Rating for Nanotechnology and Nanomaterials in the Oil and Gas Exploration Market
Table 79: Nanocellulose Product Developers in Oil and Gas Exploration
Table 80: Types of Filtration
Table 81: CNF Membranes
Table 82: Nanocellulose Applications Timeline in the Filtration Market
Table 83: Application Markets, Competing Materials, Nanocellulose Advantages and Current Market Size in Filtration
Table 84: Nanomaterials in the Filtration and Environmental Remediation Market-Applications, Stage of Commercialization and Estimated Economic Impact
Table 85: Market Challenges Rating for Nanotechnology and Nanomaterials in the Filtration and Environmental Remediation Market
Table 86: Commercial Activity in Nanocellulose Filtration
Table 87: Nanocellulose Applications Timeline in the Rheology Modifiers Market
Table 88: Commercial Activity in Nanocellulose Rheology Modifiers
Table 89: Nanocellulose Applications Timeline in Flexible Electronics
Table 90: Application Markets, Competing Materials, Nanocellulose Advantages and Current Market Size in Electronics
Table 91: Opportunities for Nanomaterials in Printed Electronics
Table 92: Nanotechnology and Nanomaterials in the Flexible Electronics, Conductive Films and Displays Market-Applications, Stage of Commercialization and Estimated Economic Impact
Table 93: Nanocellulose Product Developers in Flexible Electronics
Table 94: Applications in 3D Printing, by Nanomaterials Type and Benefits Thereof
Table 95: Application Markets, Competing Materials, Nanocellulose Advantages and Current Market Size in 3D Printing
Table 96: Nanotechnology and Nanomaterials in the 3D Printing Market-Applications, Stage of Commercialization and Estimated Economic Impact
Table 97: Market Challenges Rating for Nanotechnology and Nanomaterials in the 3D Printing Market
Table 98: Companies Developing Nanocellulose 3D Printing Products,
Table 99: Nanocellulose Producers and Types of Nanocellulose Produced
Table 100: Target Market, by Company
 
List of Figures
Figure 1: Scale of Cellulose Materials
Figure 2: Cellulose Nanofiber Transparent Sheet
Figure 3: CNF Transparent Sheet
Figure 4: Running Shoes Incorporating Cellulose Nanofibers
Figure 5: Ballpoint Pen Incorporating Cellulose Nanofibers
Figure 6: CNF Wet Powder
Figure 7: Hierarchical Structure of Wood Biomass
Figure 8: Types of Nanocellulose
Figure 9: Schematic of NFC Production
Figure 10: Tem Image of Cellulose Nanocrystals
Figure 11: Main Steps Involved in the Preparation of NCC
Figure 12: Schematic of Typical Commercialization Route for Nanocellulose Producer
Figure 13: Technology Readiness Level (TRL) for Nanocellulose
Figure 14: Production Volumes of Nanocellulose 2015, by Region
Figure 15: Nanocellulose Patents by Field of Application, 2013
Figure 16: Example Process for Producing NFC Packaging Film
Figure 17: Nanomaterials-Based Automotive Components
Figure 18: Paper and Board Global Demand
Figure 19: Global Paints and Coatings Market, Share by End User Market
Figure 20: Nanocellulose Sponge Developed by Empa for Potential Applications in Oil Recovery
Figure 21: Nanocellulose Virus Filter Paper
Figure 22: NFC Computer Chip
Figure 23: NFC Translucent Diffuser Schematic
Figure 24: Nanocellulose Photoluminescent Paper
Figure 25: Leds Shining on Circuitry Imprinted on A 5X5Cm Sheet of CNF

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