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市場調查報告書

奈米纖維素的全球市場 (2020年)

The Nanocellulose Report 2020

出版商 Future Markets, Inc. 商品編碼 923377
出版日期 內容資訊 英文 375 Pages
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奈米纖維素的全球市場 (2020年) The Nanocellulose Report 2020
出版日期: 2020年02月28日內容資訊: 英文 375 Pages
簡介

全球奈米纖維素市場,現在由於日本、北美、歐洲的企業正式投入商品而呈現盛況。尤其是,許多造紙、紙漿企業進行業務格式轉換導入最尖端的生物煉製廠,進行全面的生產活動。

本報告提供全球奈米纖維素市場相關分析,奈米纖維素的特性、分類和製造方法,市場基本結構和供應鏈,市場規模、產品價格趨勢預測 (到2030年),各類型、各用途詳細趨勢,主要企業的簡介 (共106家公司份),今後的成長領域、市場機會、需求規模預測等資訊彙整,為您概述為以下內容。

第1章 摘要整理

第2章 奈米纖維素概要

  • 纖維素
  • 奈米纖維素
  • 奈米纖維素的特性
  • 奈米纖維素的優點
  • 奈米纖維素的製造方法
  • 生產手法
  • 奈米纖維素的種類
    • 微纖化纖維素 (MFC)
    • 纖維素奈米纖維 (CNF)
      • 用途
    • 纖維素奈米結晶 (CNC)
      • 合成方法
      • 特性
      • 用途
    • 細菌奈米纖維素 (BNC)
      • 用途
  • 奈米纖維素的合成

第3章 有效利用方法分析

第4章 法規、標準

第5章 奈米纖維素的供應鏈

第6章 奈米纖維素的價格趨勢

  • 纖維素奈米纖維 (CNF)
  • 纖維素奈米結晶 (CNC)
  • 細菌奈米纖維素 (BC)

第7章 奈米纖維素的相關專利與公開情形

第8章 複合材料的奈米纖維素

  • 市場概要
  • 市場預測
  • 市場評估
  • 有效利用領域:製圖
  • 世界市場成果值、預測值 (以數量為準,到2030年)
  • 產品開發企業的簡介

第9章 汽車用奈米纖維素

第10章 建設產業用奈米纖維素

第11章 紙、紙板包裝用奈米纖維素

第12章 紡織品及服裝用奈米纖維素

第13章 醫療、健康管理用奈米纖維素

第14章 油漆和塗料用奈米纖維素

第15章 氣凝膠用奈米纖維素

第16章 石油、天然氣用奈米纖維素

第17章 過濾用奈米纖維素

第18章 化妝品、醫藥品、食品添加物用流變學改質劑用奈米纖維素

第19章 其他的市場奈米纖維素

  • 印刷/伸縮性/軟性電子產品
    • 市場評估
    • 產品開發企業的簡介
  • 3D列印用奈米纖維素
  • 航太產業的奈米纖維素

第20章 奈米纖維素、製造商分析

  • 奈米纖維素產品的種類:各製造廠商
  • 目標市場:各製造廠商

第21章 纖維素奈米纖維 (CNF) 企業的簡介

第22章 纖維素奈米結晶 (CNC) 製造商分析

第23章 細菌奈米纖維素 (BC) 企業的簡介

第24章 奈米纖維素相關的研究群組/中心

第25章 參考文獻

分析對象企業:Granbio,旭化成,Cellucomp,Chuetsu Pulp & Paper,大王製紙,DKS,Fiberlean,富士色素,Innventia AB,KRI, Inc.,Melodea,日本製紙,王子集團等

目錄

The global nanocellulose market has accelerated over the last few years as producers in Japan and to a lesser extent North America and Europe bring products to market. The development of these remarkable materials has compelled major paper and pulp producers to gravitate their traditonal business towards advanced biorefineries, which have met with initial success and resulted in production capacity increases.

These bio-based materials are abundant, renewable and inexpensive but are extremely strong, durable, and lightweight, non-toxic and are lower cost than other advanced materials and nanomaterials. Used as a materials additive and in composites, nanocellulose will help to drive the global move away from oil-based plastics and products to sustainable, bio-based alternatives.

Nanocellulose (NC) can be derived from a multitude of abundant cellulosic biomass sources such as wood pulp, agricultural crops, organic waste, as well as from bacteria. Properties including high tensile strength, biocompatibility, and high aspect ratio make it attractive to a wide range of markets, from medical to construction to aerospace. As nanocellulose originates from renewable matter, its potential to replace petroleum-derived materials in films, coatings, composites, and packaging are particularly interesting in the wake of current political and societal movements towards reduction of plastic consumption.

Three types of NC are commercially available: cellulose nanocrystals (CNC), cellulose nanofibers (CNF), and bacterial nanocellulose (BNC). In addition to being produced in different ways, these three types also vary in their physico-chemical properties, from size to crystallinity. Most commercially produced NC is CNF, which is produced on a large scale in Japan and on the pilot scale

Most of the NC being developed for commercial purposes is in the form of CNF. Currently, many NC-based applications are at an early stages, with some applications already commercially available, mainly in Japan.

Future Markets, Inc., publisher of the first ever market report on Nanocellulose in 2011, presents The Nanocellulose Report 2020, the most comprehensive and up-to date report on nanocellulose currently available, by the world's leading market authority on nanocellulose. Profiling over 90 companies, the report provides key information for investors and executives to enable them to understand and take advantage of the opportunities provided by nanocellulose.

Purchasers of ‘The Nanocellulose Report 2020’ will receive updates for 12 months (access to online file repository).

A must-have for anyone interested in the business and investment opportunities in nanocellulose, ‘The Nanocellulose Report 2020’ contains:

  • Unique market assessment tools to assess the viability of nanocellulose, by market, and application.
  • Tabular data on current nanocellulose products.
  • Market assessment by nanocellulose type: cellulose nanocrystals (CNC), cellulose nanofibers (CNF), and bacterial nanocellulose (BNC).
  • Assessment of nanocellulose by market including applications, key benefits, market megatrends, market drivers for use of nanocellulose, technology drawbacks, competing materials, estimated consumption of nanocellulose to 2030 and main OEMs in each market with potential interest in nanocellulose for product integration.
  • Graphical depictions of nanocellulose applications by market.
  • In depth-assessment of nanocellulose producer and distributor pricing in 2020.
  • Global market for nanocellulose in tons, by sector, historical and forecast to 2030.
  • In-depth profiles of nanocellulose producers including products, production capacities, manufacturing methods, collaborations, licensing, customers and target markets. Companies profiled include Granbio, Asahi Kasei, Cellucomp, Chuetsu Pulp & Paper, Daio Paper, DKS, Fiberlean, Fuji Pigment Co., Ltd. Innventia AB, KRI, Inc., Melodea, Nippon Paper, Oji and many more.
  • 85 cellulose nanofiber company profiles
  • 14 cellulose nanocrystal company profiles
  • 7 bacterial nanocellulose company profiles
  • Detailed forecasts for key growth areas, opportunities and demand.

TABLE OF CONTENTS

1 EXECUTIVE SUMMARY

  • 1.1. Why nanocellulose?
  • 1.2. The market in 2019
  • 1.3. Future global market outlook
  • 1.4. Global nanocellulose production
    • 1.4.1. Total global production capacity 2019, by type
    • 1.4.2. Cellulose nanofibers (CNF) production capacities 2019, by producer
    • 1.4.3. Microfibrillated cellulose (MFC) production capacities 2019
    • 1.4.4. Cellulose nanocrystals (CNC) production capacities 2019
  • 1.5. Global nanocellulose market demand, 2018-2030, tons
  • 1.6. Market challenges for nanocellulose
  • 1.7. Nanocellulose commercial products
  • 1.8. Nanocellulose market by region
    • 1.8.1. Japan
    • 1.8.2. China
    • 1.8.3. Malaysia
    • 1.8.4. Western Europe
    • 1.8.5. North America
  • 1.9. Global government funding

2. OVERVIEW OF NANOCELLULOSE

  • 2.1. Cellulose
  • 2.2. Nanocellulose
  • 2.3. Properties of nanocellulose
  • 2.4. Advantages of nanocellulose
  • 2.5. Manufacture of nanocellulose
  • 2.6. Production methods
  • 2.7. Types of nanocellulose
    • 2.7.1. Microfibrillated cellulose (MFC)
    • 2.7.2. Cellulose nanofibers (CNF)
      • 2.7.2.1. Applications
    • 2.7.3. Cellulose nanocrystals (CNC)
      • 2.7.3.1. Synthesis
      • 2.7.3.2. Properties
      • 2.7.3.3. Applications
    • 2.7.4. Bacterial Nanocellulose (BNC)
      • 2.7.4.1. Applications
  • 2.8. Synthesis

3. APPLICATIONS ANALYSIS

4. REGULATIONS AND STANDARDS

5. NANOCELLULOSE SUPPLY CHAIN

6. NANOCELLULOSE PRICING

  • 6.1. Cellulose nanofiber (CNF)
  • 6.2. Cellulose nanocrystals (CNC)
  • 6.3. Bacterial Nanocellulose (BC)

7. NANOCELLULOSE PATENTS AND PUBLICATIONS

8. NANOCELLULOSE IN COMPOSITES

  • 8.1. Market overview
  • 8.2. Market prospects
  • 8.3. Market assessment
  • 8.4. Applications map
  • 8.5. Global market in tons, historical and forecast to 2030
  • 8.6. Product developer profiles

9. NANOCELLULOSE IN AUTOMOTIVE

  • 9.1. Market overview
  • 9.2. Market prospects
  • 9.3. Market assessment
  • 9.4. Applications map
  • 9.5. Global market in tons, historical and forecast to 2030
  • 9.6. Product developer profiles

10. NANOCELLULOSE IN CONSTRUCTION

  • 10.1. Market overview
  • 10.2. Market prospects
  • 10.3. Market assessment
  • 10.4. Applications map
  • 10.5. Global market in tons, historical and forecast to 2030
  • 10.6. Product developer profiles

11. NANOCELLULOSE IN PAPER AND BOARD PACKAGING

  • 11.1. Market prospects
  • 11.2. Market assessment
  • 11.3. Applications map
  • 11.4. Global market in tons, historical and forecast to 2030
  • 11.5. Product developer profiles

12. NANOCELLULOSE TEXTILES AND APPAREL

  • 12.1. Market overview
  • 12.2. Market prospects
  • 12.3. Market assessment
  • 12.4. Applications map
  • 12.5. Global market in tons, historical and forecast to 2030
  • 12.6. Product developer profiles

13. NANOCELLULOSE IN MEDICINE AND HEALTHCARE

  • 13.1. Market overview
  • 13.2. Market prospects
  • 13.3. Market assessment
  • 13.4. Applications map
  • 13.5. Global market in tons, historical and forecast to 2030
  • 13.6. Product developer profiles

14. NANOCELLULOSE IN PAINTS AND COATINGS

  • 14.1. Market overview
  • 14.2. Market prospects
  • 14.3. Market assessment
  • 14.4. Applications map
  • 14.5. Global market in tons, historical and forecast to 2030
  • 14.6. Product developer profiles

15. NANOCELLULOSE IN AEROGELS

  • 15.1. Market overview
  • 15.2. Market prospects
  • 15.3. Market assessment
  • 15.4. Global market in tons, historical and forecast to 2030
  • 15.5. Product developer profiles

16. NANOCELLULOSE IN OIL AND GAS

  • 16.1. Market overview
  • 16.2. Market prospects
  • 16.3. Market assessment
  • 16.4. Global market in tons, historical and forecast to 2030
  • 16.5. Product developer profiles

17. NANOCELLULOSE IN FILTRATION

  • 17.1. Market overview
  • 17.2. Market prospects
  • 17.3. Market assessment
  • 17.4. Applications map
  • 17.5. Global market in tons, historical and forecast to 2030
  • 17.6. Product developer profiles

18. NANOCELLULOSE IN RHEOLOGY MODIFIERS FOR COSMETICS, PHARMA AND FOOD ADDITIVES

  • 18.1. Market overview
  • 18.2. Market prospects
  • 18.3. Market assessment
  • 18.4. Applications map
  • 18.5. Global market in tons, historical and forecast to 2030
  • 18.6. Product developer profiles

19. OTHER MARKETS FOR NANOCELLULOSE

  • 19.1. PRINTED, STRETCHABLE AND FLEXIBLE ELECTRONICS
    • 19.1.1. Market assessment
    • 19.1.2. Product developer profiles
  • 19.2 NANOCELLULOSE IN 3D PRINTING
    • 19.2.1. Market assessment
    • 19.2.2. Product developer profiles
  • 19.3 NANOCELLULOSE IN AEROSPACE
    • 19.3.1. Market assessment
    • 19.3.2. Product developer profiles

20. NANOCELLULOSE PRODUCER ANALYSIS

  • 20.1. Types of nanocellulose produced, by producer
  • 20.2. Target markets, by nanocellulose producer

21. CELLULOSE NANOFIBER COMPANY PROFILES

22. CELLULOSE NANOCRYSTAL (CNC) PRODUCER ANALYSIS

23. BACTERIAL CELLULOSE (BC) COMPANY PROFILES

24. NANOCELLULOSE RESEARCH GROUPS AND CENTRES

25. REFERENCES

Tables

  • Table 1: Market summary for nanocellulose-Selling grade particle diameter, usage, advantages, average price/ton, market estimates, global consumption, main current applications, future applications
  • Table 2. Markets and applications for nanocellulose
  • Table 3. Classification of nanocellulose applications by type of industrial product ranged in terms of their potential of consumption
  • Table 4: Global demand for nanocellulose in 2019, tons
  • Table 5: Market segmentation by type of nanocellulose, capacities and demand 2018
  • Table 6. CNF production capacities and production process, by producer
  • Table 7: MFC production capacities and production process, by producer
  • Table 8: Cellulose nanocrystal production capacities and production process, by producer
  • Table 9: Nanocellulose market value, by end user market demand, 2018-2030 (Tons). total
  • Table 10: Global demand for cellulose nanofibers/MFC by market, 2018-2030
  • Table 11: Global demand for cellulose nanocrystals by market, 2018-2030
  • Table 12: Market and technical challenges in nanocellulose
  • Table 13: Regional demand for cellulose nanofibers, 2019, tons (total excludes MFC)
  • Table 14. Nanocellulose producers and product developers in Japan
  • Table 15. Nanocellulose research centres, universities and companies in China
  • Table 16. Nanocellulose producers and product developers in Europe
  • Table 17. Nanocellulose producers and product developers in North America
  • Table 18: Properties and applications of nanocellulose
  • Table 19. Properties of nanocellulose, by type
  • Table 20: Properties of cellulose nanofibrils relative to metallic and polymeric materials
  • Table 21. Types of nanocellulose
  • Table 22: Types of nanocellulose
  • Table 23: Applications of cellulose nanofibers (CNF)
  • Table 24. Synthesis methods for cellulose nanocrystals (CNC)
  • Table 25: CNC sources, size and yield
  • Table 26: CNC properties
  • Table 27. Mechanical properties of CNC and other reinforcement materials
  • Table 28: Applications of nanocrystalline cellulose (NCC)
  • Table 29: Applications of bacterial nanocellulose (BNC)
  • Table 30: Market opportunity assessment for nanocellulose, by application
  • Table 31: Safety of Micro/Nanofibrillated cellulose
  • Table 32: Global nanocellulose market supply chain analysis
  • Table 33: Product/price/application matrix of cellulose nanofiber producers
  • Table 34: Product/price/application matrix of cellulose nanocrystal producers
  • Table 35. Product/price/application matrix of bacterial cellulose (CC) producers
  • Table 36: Nanocellulose patents and scientific articles by organisation
  • Table 37: Main patent assignees for CNC
  • Table 38: Main patent assignees for CNF
  • Table 39: Main patent assignees for NCC
  • Table 40. Market overview for nanocellulose in composites
  • Table 41. Comparative properties of polymer composites reinforcing materials
  • Table 42. Scorecard for nanocellulose in composites
  • Table 43. Market assessment for nanocellulose in composites-application, key benefits and motivation for use, megatrends, market drivers, technology drawbacks, competing materials, material loading, main global composites OEMs
  • Table 44: Global market demand for nanocellulose in composites, 2018-2030 (tons)
  • Table 45: Companies developing nanocellulose composites
  • Table 46. Market overview for nanocellulose in automotive
  • Table 47. Scorecard for nanocellulose in automotive
  • Table 48. Market assessment for nanocellulose in automotive-application, key benefits and motivation for use, megatrends, market drivers, technology drawbacks, competing materials, material loading, main global automotive OEMs
  • Table 49: Global market demand for nanocellulose in the automotive sector 2018-2030 (tons)
  • Table 50: Companies developing nanocellulose products in the automotive industry
  • Table 51. Market overview for nanocellulose in construction
  • Table 52. Scorecard for nanocellulose in construction
  • Table 53. Comparison of CNC with steel and other materials
  • Table 54. Market assessment for nanocellulose in construction-application, key benefits and motivation for use, megatrends, market drivers, technology drawbacks, competing materials, material loading, main global construction OEMs
  • Table 55: Market demand for nanocellulose in construction, 2018-2030 (tons)
  • Table 56: Companies developing nanocellulose in construction
  • Table 57. Oxygen permeability of nanocellulose films compared to those made form commercially available petroleum-based materials and other polymers
  • Table 58. Scorecard for nanocellulose in paper and board packaging
  • Table 59. Market assessment for nanocellulose in paper and board packaging-application, key benefits and motivation for use, megatrends, market drivers, technology drawbacks, competing materials, material loading, main global paper and board packaging OEMs
  • Table 60: Global demand for nanocellulose in paper & board packaging, 2018-2030 (tons)
  • Table 61: Companies developing nanocellulose products in paper and board
  • Table 62. Market overview for nanocellulose in textiles and apparel
  • Table 63. Scorecard for nanocellulose in textiles and apparel
  • Table 64. Market assessment for nanocellulose in textiles and apparel-application, key benefits and motivation for use, megatrends, market drivers, technology drawbacks, competing materials, material loading, main global textiles and apparel OEMs
  • Table 65: Demand for nanocellulose in textiles, 2018-2030 (tons)
  • Table 66: Companies developing nanocellulose products in textiles and apparel
  • Table 67. Market overview for nanocellulose in medicine and healthcare
  • Table 68. Scorecard for nanocellulose in medicine and healthcare
  • Table 69. Market assessment for nanocellulose in medicine and healthcare-application, key benefits and motivation for use, megatrends, market drivers, technology drawbacks, competing materials, material loading, main global medicine and healthcare OEMs
  • Table 70: Global demand for nanocellulose in medical and healthcare, 2018-2030 (tons)
  • Table 71: Global demand for nanocellulose in hygiene and absorbents, 2018-2030 (tons)
  • Table 72: Nanocellulose product developers in medicine and healthcare
  • Table 73. Market overview for nanocellulose in paints and coatings
  • Table 74. Scorecard for nanocellulose in paints and coatings
  • Table 75. Market assessment for nanocellulose in paints and coatings-application, key benefits and motivation for use, megatrends, market drivers, technology drawbacks, competing materials, material loading, main global paints and coatings OEMs
  • Table 76: Global demand for nanocellulose in paint and coatings, 2018-2030 (tons)
  • Table 77: Companies developing nanocellulose products in paints and coatings, applications targeted and stage of commercialization
  • Table 78. Market overview for nanocellulose in aerogels
  • Table 79. Scorecard for nanocellulose in aerogels
  • Table 80. Market assessment for nanocellulose in aerogels and insulation-application, key benefits and motivation for use, megatrends, market drivers, technology drawbacks, competing materials, material loading, main global aerogels OEMs
  • Table 81: Global demand for nanocellulose in aerogels and insulation, 2018-2030 (tons)
  • Table 82: Nanocellulose product developers in aerogels and insulation
  • Table 83. Market overview for nanocellulose in oil and gas
  • Table 84. Scorecard for nanocellulose in oil and gas
  • Table 85. Market assessment for nanocellulose in oil and gas-application, key benefits and motivation for use, megatrends, market drivers, technology drawbacks, competing materials, material loading, main global oil and gas OEMs
  • Table 86: Global demand for nanocellulose in the oil and gas market, 2018-2030 (tons)
  • Table 87: Nanocellulose product developers in oil and gas exploration

Table 88. CNF membranes Table 89. Market overview for nanocellulose in filtration Table 90. Scorecard for nanocellulose in filtration Table 91. Market assessment for nanocellulose in filtration-application, key benefits and motivation for use, megatrends, market drivers, technology drawbacks, competing materials, material loading, main global filtration OEMs Table 92: Global demand for nanocellulose in the filtration market, 2018-2030 (tons) Table 93: Companies developing nanocellulose products in filtration Table 94. Market overview for nanocellulose in rheology modifiers Table 95. Scorecard for nanocellulose in rheology modifiers Table 96. Market assessment for nanocellulose in rheology modifiers-application, key benefits and motivation for use, megatrends, market drivers, technology drawbacks, competing materials, material loading, main global rheology modifier OEMs Table 97: Global demand for nanocellulose in the rheology modifiers market, 2018-2030 (tons) Table 98: Commercial activity in nanocellulose rheology modifiers Table 99. Properties of flexible electronics-cellulose nanofiber film (nanopaper) Table 100. Market assessment for nanocellulose in printed, stretchable and flexible electronics-application, key benefits and motivation for use, megatrends, market drivers, technology drawbacks, competing materials, material loading, main global printed, flexible and stretchable electronics OEMs Table 101: Companies developing cellulose nanofiber products in printed, stretchable and flexible electronics Table 102. Market assessment for nanocellulose in 3D priniting-application, key benefits and motivation for use, megatrends, market drivers, technology drawbacks, competing materials, material loading, main global 3D printing OEMs Table 103: Companies developing nanocellulose 3D printing products Table 104. Market assessment for nanocellulose in aerospace-application, key benefits and motivation for use, megatrends, market drivers, technology drawbacks, competing materials, material loading, main global aerospace OEMs Table 105: Companies developing nanocellulose products in aircraft and aerospace Table 106: Nanocellulose producers and types of nanocellulose produced Table 107: Target markets, by nanocellulose producer Table 108: Granbio Nanocellulose Processes Table 109: Oji Holdings CNF products Table 110: CNC producers and production capacities Table 111: Target market, by cellulose nanocrystal producer Table 112. Fibnano properties

Figures

  • Figure 1: Market segmentation by type of nanocellulose, capacities and demand 2019
  • Figure 2: Nanocellulose market value, by end user market demand, 2018-2030 (Tons). total
  • Figure 3: Global demand for cellulose nanofibers/MFC by market, 2018-2030
  • Figure 4: Global demand for cellulose nanocrystals by market, 2018-2030
  • Figure 5: Nanocellulose-based commercial products
  • Figure 6. Dorayaki
  • Figure 7. ENASAVE NEXT
  • Figure 8. GEL-KAYANO™
  • Figure 9. Kirekira! toilet wipes
  • Figure 10. "Poise" series Super strong deodorant sheet
  • Figure 11. SC-3 (B) speakers
  • Figure 12. SE-MONITOR5 headphones
  • Figure 13. "Skin Care Acty" series Adult diapers
  • Figure 14. "SURISURI" Lotion
  • Figure 15: Regional demand for cellulose nanofibers, 2019
  • Figure 16: Schematic diagram of partial molecular structure of cellulose chain with numbering for carbon atoms and n= number of cellobiose repeating unit
  • Figure 17: Scale of cellulose materials
  • Figure 18: Types of nanocellulose
  • Figure 19: Relationship between different kinds of nanocelluloses
  • Figure 20: CNF gel
  • Figure 21. TEM image of cellulose nanocrystals
  • Figure 22. CNC preparation
  • Figure 23: Extracting CNC from trees
  • Figure 24: CNC slurry
  • Figure 25. Nanocellulose preparation methods and resulting materials
  • Figure 26. Various preparation methods for nanocellulose
  • Figure 27: (a) Number of research publications on the different nomenclatures of nanocellulosic materials per year during the last decade. (b) Cumulative number of research article number published per nomenclature
  • Figure 28. Published patent publications for nanocellulose, 2009-2018
  • Figure 29: Nanocellulose patents by field of application
  • Figure 30. Applications of nanocellulose in composites
  • Figure 31: Global market demand for nanocellulose in composites, 2018-2030 (tons)
  • Figure 32. CNF mixed PLA (Poly Lactic Acid)
  • Figure 33: CNF resin products
  • Figure 34. Interior of NCV concept car
  • Figure 35. Applications of nanocellulose in automotive
  • Figure 36: Global demand for nanocellulose in the automotive sector, 2018-2030 (tons)
  • Figure 37: Daio Paper's cellulose nanofiber material in doors and hood of race car
  • Figure 38: CNF composite
  • Figure 39: Engine cover utilizing Kao CNF composite resins
  • Figure 40. The structure of the CNF-based front hood
  • Figure 41. CNF car engine cover developed in Japan Ministry of the Environment's (MOE) Nano Cellulose Vehicle (NCV) Project
  • Figure 42. Comparison of nanofillers with supplementary cementitious materials and aggregates in concrete
  • Figure 43. Applications of nanocellulose in construction
  • Figure 44: Demand for nanocellulose in construction, 2018-2030 (tons)
  • Figure 45. Applications of nanocellulose in paper and board packaging
  • Figure 46: Global demand for nanocellulose in the paper & board/packaging, 2018-2030 (tons)
  • Figure 47. Applications of nanocellulose in textiles and apparel
  • Figure 48: Demand for nanocellulose in the textiles, 2018-2030 (tons)
  • Figure 49: CNF deodorant products
  • Figure 50. Applications of nanocellulose in medicine and healthcare
  • Figure 51: Global demand for nanocellulose in medical and healthcare, 2018-2030 (tons)
  • Figure 52: Global demand for nanocellulose in hygiene and absorbents 2018-2030 (tons)
  • Figure 53. Fibnano
  • Figure 54. Applications of nanocellulose in paints and coatings
  • Figure 55: Global demand for nanocellulose in paint and coatings, 2018-2030 (tons)
  • Figure 56. Hefcel-coated wood (left) and untreated wood (right) after 30 seconds flame test
  • Figure 57: Global demand for nanocellulose in aerogels and insulation, 2018-2030 (tons)
  • Figure 58: Global demand for nanocellulose in the oil and gas market, 2018-2030 (tons)
  • Figure 59. Nanocellulose sponge developed by EMPA for potential applications in oil recovery
  • Figure 60. Applications of nanocellulose in filtration
  • Figure 61: Global demand for nanocellulose in the filtration market, 2018-2030 (tons)
  • Figure 62. Multi-layered cross section of CNF-nw
  • Figure 63. Applications of nanocellulose in rheology modifers
  • Figure 64: Global demand for nanocellulose in the rheology modifiers market, 2018-2030 (tons)
  • Figure 65. "SURISURI" products
  • Figure 66: Foldable nanopaper antenna
  • Figure 67: Flexible electronic substrate made from CNF
  • Figure 68. Oji CNF transparent sheets
  • Figure 69. Electronic components using NFC as insulating materials
  • Figure 70. American Process, Inc. CNF production process
  • Figure 71: Anpoly cellulose nanofiber hydrogel
  • Figure 72. MEDICELLU™
  • Figure 73: Ashai Kasei CNF production process
  • Figure 74: Asahi Kasei CNF fabric sheet
  • Figure 75: Properties of Asahi Kasei cellulose nanofiber nonwoven fabric
  • Figure 76: CNF nonwoven fabric
  • Figure 77. Borregaard Chemcell CNF production process
  • Figure 78. nanoforest products
  • Figure 79. Chuetsu Pulp & Paper CNF production process
  • Figure 80. nanoforest-S
  • Figure 81. nanoforest-PDP
  • Figure 82. nanoforest-MB
  • Figure 83. Daicel Corporation CNF production process
  • Figure 84. Celish
  • Figure 85: Trunk lid incorporating CNF
  • Figure 86. Daio Paper CNF production process
  • Figure 87. ELLEX products
  • Figure 88. CNF-reinforced PP compounds
  • Figure 89. Kirekira! toilet wipes
  • Figure 90. Color CNF
  • Figure 91. DIC Products CNF production process
  • Figure 92. DKS Co. Ltd. CNF production process
  • Figure 93: Rheocrysta spray
  • Figure 94. DKS CNF products
  • Figure 95: CNF based on citrus peel
  • Figure 96. Imerys CNF production process
  • Figure 97. Filler Bank CNC products
  • Figure 98: Cellulose Nanofiber (CNF) composite with polyethylene (PE)
  • Figure 99: CNF products from Furukawa Electric
  • Figure 100: Cutlery samples (spoon, knife, fork) made of nano cellulose and biodegradable plastic composite materials
  • Figure 101. Non-aqueous CNF dispersion "Senaf" (Photo shows 5% of plasticizer)
  • Figure 102: CNF gel
  • Figure 103: Block nanocellulose material
  • Figure 104: CNF products developed by Hokuetsu
  • Figure 105. Innventia CNF production process
  • Figure 106: Innventia AB movable nanocellulose demo plant
  • Figure 107. Kami Shoji CNF products
  • Figure 108: Engine cover utilizing Kao CNF composite resins
  • Figure 109: 0.3% aqueous dispersion of sulfated esterified CNF and dried transparent film (front side)
  • Figure 110. Kruger Biomaterials, Inc. CNF production process
  • Figure 111. CNF deodorant
  • Figure 112. Chitin nanofiber product
  • Figure 113. Marusumi Paper cellulose nanofiber products
  • Figure 114. FibriMa cellulose nanofiber powder
  • Figure 115. Cellulomix production process
  • Figure 116. Nanobase versus conventional products
  • Figure 117. Uni-ball Signo UMN-307
  • Figure 118: CNF slurries
  • Figure 119. Range of CNF products
  • Figure 120: Nanocell serum product
  • Figure 121: Hydrophobization facilities for raw pulp
  • Figure 122: Mixing facilities for CNF-reinforced plastic
  • Figure 123. Nippon Paper CNF production process
  • Figure 124: Nippon Paper Industries' adult diapers
  • Figure 125. All-resin forceps incorporating CNF
  • Figure 126. CNF paint product
  • Figure 127: CNF wet powder
  • Figure 128: CNF transparent film
  • Figure 129: Transparent CNF sheets
  • Figure 130. Oji Paper CNF production process
  • Figure 131: CNF clear sheets
  • Figure 132: Fluorene cellulose ® powder
  • Figure 133. Performance Biofilaments CNF production process
  • Figure 134: XCNF
  • Figure 135: CNF insulation flat plates
  • Figure 136. Seiko PMC CNF production process
  • Figure 137: Rubber soles incorporating CNF
  • Figure 138. CNF dispersion and powder from Starlite
  • Figure 139. Stora Enso CNF production process
  • Figure 140. Sugino Machine CNF production process
  • Figure 141: High Pressure Water Jet Process
  • Figure 142: 2 wt.% CNF suspension
  • Figure 143. BiNFi-s Dry Powder
  • Figure 144. BiNFi-s Dry Powder and Propylene (PP) Complex Pellet
  • Figure 145: Silk nanofiber (right) and cocoon of raw material
  • Figure 146: SVILOSA AD CNC products
  • Figure 147: Silver / CNF composite dispersions
  • Figure 148: CNF/nanosilver powder
  • Figure 149: Comparison of weight reduction effect using CNF
  • Figure 150: CNF resin products
  • Figure 151. University of Maine CNF production process
  • Figure 152. UPM-Kymmene CNF production process
  • Figure 153. US Forest Service Products Laboratory CNF production process
  • Figure 154: Flexible electronic substrate made from CNF
  • Figure 155. VTT 100% bio-based stand-up pouches
  • Figure 156. VTT CNF production process
  • Figure 157: HefCel-coated wood (left) and untreated wood (right) after 30 seconds flame test
  • Figure 158: Bio-based barrier bags prepared from Tempo-CNF coated bio-HDPE film
  • Figure 159. Zelfo Technology GmbH CNF production process
  • Figure 160. American Process, Inc. CNF production process
  • Figure 161: R3TM process technology
  • Figure 162: Blue Goose CNC Production Process
  • Figure 163: NCCTM Process
  • Figure 164: Celluforce production process
  • Figure 165: CNC produced at Tech Futures' pilot plant; cloudy suspension (1 wt.%), gel-like (10 wt.%), flake-like crystals, and very fine powder. Product advantages include:
  • Figure 166: Plantrose process
  • Figure 167. University of Maine CNF production process
  • Figure 168. US Forest Service Products Laboratory CNF production process
  • Figure 169. CNC solution
  • Figure 170: Bacterial cellulose face mask sheet