表紙
市場調查報告書
商品編碼
1040882

氣凝膠的全球市場(∼2031年)

The Global Market for Aerogels to 2031

出版日期: | 出版商: Future Markets, Inc. | 英文 145 Pages, 39 Tables, 43 Figures | 訂單完成後即時交付

價格
  • 全貌
  • 簡介
  • 目錄
簡介

氣凝膠,在住宅、建築市場中,及重量最小化重要的產業(汽車,航太等)中,作為考慮到法規的高性能隔熱材料,需求逐漸增加。儘管氣凝膠有許多潛在的市場應用,但在工業應用中的使用受到限制,主要是由於成本。然而,由於氣凝膠技術的改進和市場對更輕、更強和更環保材料的需求,尤其是在建築保溫材料方面,預計該市場將在未來十年顯著成長。

本報告提供全球氣凝膠市場相關調查分析,市場分析,收益分析,企業簡介等系統性資訊。

目錄

第1章 摘要整理

  • 氣凝膠的特性
  • 氣凝膠的應用
  • 氣凝膠市場競爭要素
  • 推動市場要素和趨勢
  • 氣凝膠的生產者與能力
  • COVID-19危機的影響
  • 市場與技術的課題
  • 市場趨勢(2020年∼2021年)

第2章 氣凝膠的類型

  • 氣凝膠
    • 氣凝膠的原因
    • 分類
    • 市售的氣凝膠
  • 氣凝膠的製造方法
    • 溶膠凝膠法
    • 變陳
    • 疏水化/表面改性
    • 乾燥方法
  • 二氧化矽氣凝膠
    • 特性
    • 產品
    • 主要企業
  • 如氣凝膠的聚合物的形態
  • 金屬氧化物氣凝膠
  • 有機氣凝膠
    • 聚合物氣凝膠
    • 生物為基礎的氣凝膠(生物氣凝膠)
    • 碳氣凝膠
    • 奈米碳管氣凝膠
    • 石墨烯氣凝膠
    • 3D印刷的氣凝膠
  • 混合及複合氣凝膠
    • 混合氧化物氣凝膠
    • 金屬氧化物氣凝膠複合材料
    • 碳為基礎的氣凝膠複合材料

第3章 技術準備等級(TRL)

第4章 氣凝膠的市場與應用

  • 競爭情形
  • 石油、天然氣
  • 建築和建設
  • 能源轉換與貯存
  • 生物醫學
    • 藥物輸送
    • 人組織工程
    • 醫療用植入
    • 創傷護理
  • 低溫運輸包裝
  • 電子產品
  • 過濾,分離,及吸附
  • 高性能紡織品
  • 食品
  • 催化劑
  • 塗料及塗料添加劑
  • 航太
  • 化妝品
  • 汽車
  • 其他的市場和應用

第5章 氣凝膠專利

  • 專利申請

第6章 全球氣凝膠的收益

  • 總合(2018年∼2031年)
  • 各市場(2018年∼2031年)
  • 各材料(2018年∼2031年)
  • 各地區(2018年∼2031年)

第7章 企業簡介

  • Active Aerogels
  • Aerogel Inside
  • Aerogel Technologies LLC
  • Aerogelex UG
  • AeroShield Materials
  • Armacell International SA
  • Aspen Aerogels, Inc
  • BASF SE
  • Blueshift Materials, Inc
  • Cabot Corporation
  • Cellutech AB (Stora Enso)
  • Ecoworth Tech Pte. Ltd
  • Elisto GmbH
  • Enersens SAS
  • Gelanggang Kencana Sdn. Bhd
  • Graphene Composites Ltd
  • Green Earth Aerogel Technologies
  • Guangdong Alison Hi-Tech Co., Ltd
  • Hebei Jinna Technology Co., Ltd
  • InnoSense LLC
  • Hokuetsu Toyo Fibre Co., Ltd
  • JIOS Aerogel
  • Joda Technology Co., Ltd
  • Krosslinker Pte. Ltd
  • Melodea
  • NanoPlexus Ltd
  • Nano Tech Co., Ltd
  • LLC Niagara
  • Okalux Glastechnik GmbH
  • Okitsumo
  • Ocellus, Inc
  • REM Tech Co., Ltd
  • Sumteq GmbH
  • Sunthru LLC
  • Surnano Aerogel Co., Ltd
  • Svenska Aerogel Holding AB
  • Thermulon Ltd
  • Tiem Factory, Inc
  • ZEN Graphene Solutions Ltd

第8章 進行氣凝膠事業的其他企業

第9章 原生產業者

第10章 調查範圍和調查手法

  • 調查範圍
  • 調查手法

第11章 參考文件

目錄

Aerogels are nanostructured materials with low density, high surface area (>150 m2/g) and open porosity (typically 95-99.99 %), resulting in very low densities. The pores are very narrow (2-50 nm), which contributes to very high specific surface areas. Their high porosities and low densities make aerogels excellent light-weight insulators of heat, sound, and electricity, and their high specific surface areas make them good absorbers of both active materials for controlled release, and of pollutants. Aerogels made of materials such as silica or aluminium oxide have a strong resistance to fire and chemicals.

Special characteristics including:

  • low density;
  • low thermal conductivity;
  • ultralight (0.00012 to 0.9 g/cc);
  • high surface area (Up to 3000 m2/g);
  • high and open porosity (typically in the 95-99.99 % range);
  • superinsulating (10-80 mW/m-K);
  • excellent impact damping properties;
  • flame and moisture resistance;
  • low optical index of refraction;
  • high air flowability;
  • low speed of sound;
  • high loading capacity;
  • tuneable chemical functionalities;
  • renewable resources;
  • low dielectric constant

These properties are desirable for applications in:

  • Biomedical
  • Drug delivery carriers
  • Tissue engineering (synthetic bone grafts)
  • Wound dressings
  • Energy infrastructure
  • Refineries
  • Petrochemical
  • Oil sands
  • Offshore
  • Power generation
  • Environmental absorbents, sensors and catalysts
  • Wastewater treatment
  • Air and water pollutant detection
  • Sound insulation
  • Food
  • Delivery
  • Food additives
  • Storage of temperature-sensitive food
  • Building and construction
  • Non-combustible thermal insulation
  • Composite panels and blankets
  • Insulated spray rendering
  • Acoustic insulation
  • Polycarbonate wall panels
  • Coatings and paints
  • Window insulation
  • Removal of indoor air contaminants
  • Energy conversion and storage
  • Lithium-ion batteries
  • Electric vehicles
  • Supercapacitors
  • Fuel cells
  • Solar
  • Apparel and textiles
  • Thermal insulation
  • Antibacterial textiles
  • Medical textiles
  • Flame retardant textiles
  • Footwear
  • Cold-chain packaging
  • Insulated packaging
  • Sport foods composites

Demand for aerogels has grown in regulation friendly, high-performance, insulating materials in housing and building markets and in industries, where the minimization of weight is critical (e.g. automotive, aerospace). Despite the numerous potential market applications of aerogels, their use in industrial applications has been limited, mainly due to cost. However, the market is predicted to grow significantly over the next decade due to improvements in aerogel technology and market demand for lighter, stronger and more environmentally friendly materials, especially in building insulation.

Application as thermal insulation materials in construction and architecture is the largest market for aerogels and one with the potentially the greatest economic return. As well as loft and façade insulation, aerogels are also suitable for windows due to their high transparency (more than 90% light transmission).

Aerogels can be divided into two broad categories, namely inorganic and organic, each category being further divided according to the nature of the materials used in the design of the gel structure.

Report contents include:

  • Market drivers
  • Market challenges
  • Recent market activity.
  • Impact of COVID-19 crisis on the aerogels market
  • Assessment of aerogels market by types.
  • Global revenues 2018 to 2031 by type, markets and regions
  • End user market analysis.
  • Patent analysis.
  • Assessment of key industry players
  • 37 Company profiles. Companies profiled include: Armacell, Aspen Aerogel, Blueshift Materials, Cabot Corporation, Enersens SAS, JIOS Aerogel, Guangdong Alison Hi-Tech Co., Ltd., Sunthru, Thermulon and many more.

TABLE OF CONTENTS

1. EXECUTIVE SUMMARY

  • 1.1. Aerogel properties
  • 1.2. Aerogel applications
  • 1.3. Competitive factors in the aerogels market
  • 1.4. Market drivers and trends
  • 1.5. Aerogel producers and capacities
  • 1.6. Impact of COVID-19 crisis
  • 1.7. Market and technology challenges
  • 1.8. Market developments 2020-2021

2. TYPES OF AEROGELS

  • 2.1. Aerogels
    • 2.1.1. Origin of Aerogels
    • 2.1.2. Classification
    • 2.1.3. Commercially available aerogels
  • 2.2. Production methods for aerogels
    • 2.2.1. Sol-gel process
    • 2.2.2. Aging
    • 2.2.3. Hydrophobization/surface modification
    • 2.2.4. Drying methods
      • 2.2.4.1. Overview of drying methods
      • 2.2.4.2. Advantages and disadvantages
  • 2.3. Silica aerogels
    • 2.3.1. Properties
      • 2.3.1.1. Thermal conductivity
      • 2.3.1.2. Mechanical
    • 2.3.2. Products
      • 2.3.2.1. Monoliths
      • 2.3.2.2. Powder
      • 2.3.2.3. Granules
      • 2.3.2.4. Blankets
      • 2.3.2.5. Aerogel boards
      • 2.3.2.6. Aerogel renders
      • 2.3.2.7. Cost
    • 2.3.3. Main players
  • 2.4. Aerogel-like polymer foams
  • 2.5. Metal oxide aerogels
  • 2.6. Organic aerogels
    • 2.6.1. Polymer aerogels
      • 2.6.1.1. Companies
    • 2.6.2. Biobased aerogels (bio-aerogels)
      • 2.6.2.1. Cellulose aerogels
      • 2.6.2.2. Lignin aerogels
      • 2.6.2.3. Alginate aerogels
      • 2.6.2.4. Starch aerogels
      • 2.6.2.5. Chitosan aerogels
      • 2.6.2.6. Protein aerogels
      • 2.6.2.7. Silk fiber
    • 2.6.3. Carbon aerogels
      • 2.6.3.1. Companies
    • 2.6.4. Carbon nanotube aerogels
    • 2.6.5. Graphene aerogels
    • 2.6.6. 3D printed aerogels
  • 2.7. Hybrid and composite aerogels
    • 2.7.1. Mixed oxide aerogels
    • 2.7.2. Metal oxide aerogel composites
    • 2.7.3. Carbon-based aerogel composites

3. TECHNOLOGY READINESS LEVEL (TRL)

4. MARKETS AND APPLICATIONS FOR AEROGELS

  • 4.1. Competitive landscape
  • 4.2. Oil and Gas
  • 4.3. Building and construction
  • 4.4. Energy conversion and storage
  • 4.5. Biomedical
    • 4.5.1. Drug delivery
    • 4.5.2. Tissue engineering
    • 4.5.3. Medical implants
    • 4.5.4. Wound care
  • 4.6. Cold-Chain packaging
  • 4.7. Electronics
  • 4.8. Filtration, separation, and sorption
  • 4.9. High-performance textiles
  • 4.10. Food
  • 4.11. Catalysts
  • 4.12. Paint and coating additives
  • 4.13. Aerospace
  • 4.14. Cosmetics
  • 4.15. Automotive
  • 4.16. Other markets and applications

5. AEROGEL PATENTS

  • 5.1. Patent applications

6. GLOBAL AEROGELS REVENUES

  • 6.1. Total, 2018-2031
  • 6.2. By market, 2018-2031
  • 6.3. By material, 2018-2031
  • 6.4. By region, 2018-2031
  • 7. AEROGEL COMPANY PROFILES
  • 7.1. Active Aerogels
  • 7.2. Aerogel Inside
  • 7.3. Aerogel Technologies LLC
  • 7.4. Aerogelex UG
  • 7.5. AeroShield Materials
  • 7.6. Armacell International S.A
  • 7.7. Aspen Aerogels, Inc
  • 7.8. BASF SE
  • 7.9. Blueshift Materials, Inc
  • 7.10. Cabot Corporation
  • 7.11. Cellutech AB (Stora Enso)
  • 7.12. Ecoworth Tech Pte. Ltd
  • 7.13. Elisto GmbH
  • 7.14. Enersens SAS
  • 7.15. Gelanggang Kencana Sdn. Bhd
  • 7.16. Graphene Composites Ltd
  • 7.17. Green Earth Aerogel Technologies
  • 7.18. Guangdong Alison Hi-Tech Co., Ltd
  • 7.19. Hebei Jinna Technology Co., Ltd
  • 7.20. InnoSense LLC
  • 7.21. Hokuetsu Toyo Fibre Co., Ltd
  • 7.22. JIOS Aerogel
  • 7.23. Joda Technology Co., Ltd
  • 7.24. Krosslinker Pte. Ltd
  • 7.25. Melodea
  • 7.26. NanoPlexus Ltd
  • 7.27. Nano Tech Co., Ltd
  • 7.28. LLC Niagara
  • 7.29. Okalux Glastechnik GmbH
  • 7.30. Okitsumo
  • 7.31. Ocellus, Inc
  • 7.32. REM Tech Co., Ltd
  • 7.33. Sumteq GmbH
  • 7.34. Sunthru LLC
  • 7.35. Surnano Aerogel Co., Ltd
  • 7.36. Svenska Aerogel Holding AB
  • 7.37. Thermulon Ltd
  • 7.38. Tiem Factory, Inc
  • 7.39. ZEN Graphene Solutions Ltd

8. OTHER COMPANIES WITH AEROGEL ACTIVITIES

9. EX-PRODUCERS

10. RESEARCH SCOPE AND METHODOLOGY

  • 10.1. Report scope
  • 10.2. Research methodology

11. REFERENCES

Tables

  • Table 1. Market drivers for aerogels
  • Table 2. Aerogel producers and capacities-current and planned
  • Table 3. Assessment of impact from COVID-19 crisis by end user market. Key: Low, little impact and market will continue to grow. Medium, market impacted to some degree affecting growth prospects over next 1-2 years. High: Market significantly impacted
  • Table 4. Market and technology challenges in aerogels
  • Table 5. Aerogels market developments 2020-2021
  • Table 6. General properties and value of aerogels
  • Table 7. Synthesis methods-Aerogels synthesised, advantages and disadvantages
  • Table 8. Drying methods for aerogel production
  • Table 9. Advantages and disadvantages of drying methods
  • Table 11. Commercially available aerogel-enhanced blankets
  • Table 12. Main manufacturers of silica aerogels and product offerings
  • Table 13. Typical structural properties of metal oxide aerogels
  • Table 14. Polymer aerogels companies
  • Table 15. Types of biobased aerogels
  • Table 16. Carbon aerogel companies
  • Table 10. Technology Readiness Level (TRL) Examples
  • Table 17. Market overview of aerogels in oil and gas-market drivers, types of aerogels utilized, motivation for use of aerogels, applications, TRL
  • Table 18. Market overview of aerogels in building and construction-market drivers, types of aerogels utilized, motivation for use of aerogels, applications, TRL
  • Table 19. Market overview of aerogels in energy conversion and storage-market drivers, types of aerogels utilized, motivation for use of aerogels, applications, TRL
  • Table 20. Market overview of aerogels in drug delivery-market drivers, types of aerogels utilized, motivation for use of aerogels, applications, TRL
  • Table 21. Market overview of aerogels in tissue engineering-market drivers, types of aerogels utilized, motivation for use of aerogels, applications, TRL
  • Table 22. Market overview of aerogels in medical implants-market drivers, types of aerogels utilized, motivation for use of aerogels, applications, TRL
  • Table 23. Market overview of aerogels in wound care-market drivers, types of aerogels utilized, motivation for use of aerogels, applications, TRL
  • Table 24. Market overview of aerogels in cold-chain packaging-market drivers, types of aerogels utilized, motivation for use of aerogels, applications, TRL
  • Table 25. Market overview of aerogels in electronics-market drivers, types of aerogels utilized, motivation for use of aerogels, applications, TRL
  • Table 26. Market overview of aerogels in filtration, separation, and sorption-market drivers, types of aerogels utilized, motivation for use of aerogels, applications, TRL
  • Table 27. Market overview of aerogels in textiles- market drivers, types of aerogels utilized, motivation for use of aerogels, applications, TRL
  • Table 28. Market overview of aerogels in food- market drivers, types of aerogels utilized, motivation for use of aerogels, applications, TRL
  • Table 29. Market overview of aerogels in catalysts-market drivers, types of aerogels utilized, motivation for use of aerogels, applications, TRL
  • Table 30. Market overview of aerogels in paints and coatings-market drivers, types of aerogels utilized, motivation for use of aerogels, applications, TRL
  • Table 31. Market overview of aerogels in aerospace-market drivers, types of aerogels utilized, motivation for use of aerogels, applications, TRL
  • Table 32. Market overview of aerogels in cosmetics-market drivers, types of aerogels utilized, motivation for use of aerogels, applications, TRL
  • Table 33. Market overview of aerogels in automotive-market drivers, types of aerogels utilized, motivation for use of aerogels, applications, TRL
  • Table 34. Other markets and applications for aerogels
  • Table 35. Global market for aerogels, 2018-2031, millions USD
  • Table 36. Global market for aerogels, 2018-2031, millions USD, by market
  • Table 37. Global market for aerogels, 2018-2031, millions USD, by material
  • Table 38. Other companies with aerogel activities
  • Table 39. Aerogel producers no longer trading

Figures

  • Figure 1. SLENTEX® thermal insulation
  • Figure 2. Main characteristics of aerogel type materials
  • Figure 3. Classification of aerogels
  • Figure 4. Canada Goose luxury footwear
  • Figure 5. Schematic of silica aerogels synthesis
  • Figure 6. Formation of aerogels, cryogels and xerogels
  • Figure 7. Aerogel engineering strategies
  • Figure 8. SEM images of the microstructures of (a) alginate and (b) pectin aerogels obtained by supercritical drying, (c) cellulose aerogels by freeze-drying, and (d) silica-cellulose composite aerogels by ambient drying
  • Figure 9. Methods of gel drying
  • Figure 10. Flower resting on a piece of silica aerogel suspended in mid air by the flame of a bunsen burner
  • Figure 11. Monolithic aerogel
  • Figure 12. Aerogel granules
  • Figure 13. Internal aerogel granule applications
  • Figure 14. Slentite
  • Figure 15. Methods for producing bio-based aerogels
  • Figure 16. Types of cellulose aerogel
  • Figure 17. Lignin-based aerogels
  • Figure 18. Fabrication routes for starch-based aerogels
  • Figure 19. Schematic of silk fiber aerogel synthesis
  • Figure 20. Graphene aerogel
  • Figure 21. Commonly employed printing technologies for aerogels
  • Figure 22. Schematic for direct ink writing of silica aerogels
  • Figure 23. 3D printed aerogel
  • Figure 24. Technology Readiness Level (TRL) for aerogels
  • Figure 25. Segmentation of the aerogel market by application, 2020
  • Figure 26. Pyrogel insulation on a heat-exchange vessel in a petrochemical plant
  • Figure 27. Aerogel construction applications
  • Figure 28. Incorporation of aerogels into textiels
  • Figure 29. Aerogel dust collector
  • Figure 30. Aerogel patents 2010-December 2021
  • Figure 31. Global market for aerogels, 2018-2031, millions USD
  • Figure 32. Global market for aerogels, 2018-2031, millions USD, by market
  • Figure 33. Global market for aerogels, 2018-2031, millions USD, by material
  • Figure 34. Global market for aerogels, 2018-2031, millions USD, by region
  • Figure 35. Lignin Aero gel plate
  • Figure 36. Thermal Conductivity Performance of ArmaGel HT
  • Figure 37. SLENTEX® roll (piece)
  • Figure 38. CNF gel
  • Figure 39. Block nanocellulose material
  • Figure 40. Melodea CNC suspension
  • Figure 41. HIP AERO paint
  • Figure 42. Sunthru Aerogel pane
  • Figure 43. Quartzene®