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市場調查報告書

全球石墨烯市場上機會、計劃、應用、專利的考察:2023年

Global Graphene Market Opportunity, Projects, Application & Patent Insight 2023

出版商 KuicK Research 商品編碼 556456
出版日期 內容資訊 英文 250 Pages
商品交期: 最快1-2個工作天內
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全球石墨烯市場上機會、計劃、應用、專利的考察:2023年 Global Graphene Market Opportunity, Projects, Application & Patent Insight 2023
出版日期: 2017年09月14日 內容資訊: 英文 250 Pages
簡介

本報告提供全球石墨烯市場相關調查分析,市場概要,各部門的用途,各市場現狀,產品、用途、地區的市場分析,及未來展望等系統性資訊。

第1章 石墨烯概要

  • 石墨烯是什麼?
  • 石墨烯的合成

第2章 生物醫學產業上石墨烯的用途

  • 藥物/遺傳基因遞送
  • 再生醫療
  • 成像技術
  • 治療
  • 抗菌劑

第3章 複合材料中石墨烯的用途

  • 塗料
  • 橡膠 & 塑膠
  • 汽車
  • 航太
  • 運動用品

第4章 電子產品 & 光電中石墨烯的用途

  • RFID
  • 觸控螢幕
  • 運算晶片

第5章 能源中石墨烯的用途

  • 能源轉換
    • 太陽能電池
    • 燃料電池
  • 儲能
    • 石墨烯為基礎的超級電容器儲能
    • 電池的石墨烯的用途

第6章 環境復育中石墨烯的用途

  • 水質淨化/處理
  • 二氧化碳回收 & 貯存 (CCS)

第7章 石墨烯感測器概要

第8章 全球石墨烯市場現狀

  • 石墨烯產品
  • 應用領域
  • 地區

第9章 全球石墨烯資料庫:各部門/用途

  • 石墨烯生產/合成
  • 石墨烯的特徵
  • 石墨烯設備/材料
  • 高分子 & 複合材料
  • 塗料 & 混合物
  • 航太/航空
  • 電子產品
  • 光電
  • 電池
  • 儲能
  • 再生能源
  • 能源轉換
  • 電力
  • IC
  • 感測器
  • 互相連接
  • 生物醫學
  • 運動用品
  • 電晶體
  • 汽車
  • 水處理/水質淨化
  • 石油、天然氣
  • 半導體設備
  • 其他

第10章 全球石墨烯市場上商用計劃:各部門/用途

  • 石墨烯生產/合成
  • 石墨烯的特徵
  • 石墨烯薄膜/陣列
  • 石墨烯基/來源材料
  • 醫療 & 藥局
  • 電子產品
  • 電力
  • 能源
  • 高分子 & 複合材料
  • 混合物 & 塗料
  • 感測器
  • 環境復育
  • 食品加工/食品安全
  • 水處理/水質淨化
  • 其他

第11章 全球石墨烯市場上偏好的參數

  • 石墨烯的多功能的特徵
  • 比其他碳奈米材料單純的生產過程
  • 電子產品 & 儲能的利用擴大
  • 石墨烯泡沫的多樣性
  • 廣泛的R&D活動

第12章 全球石墨烯市場上商業化的課題

  • 生產量的限制
  • 高的生產成本

第13章 全球石墨烯市場上未來展望

第14章 競爭情形

  • Haydale
  • XG Sciences
  • Applied Graphene Materials (AGM)
  • Grafoid
  • Graphene Frontiers
  • ACS Materials
  • Thomas Swan & Company
  • Graphenea
  • NanoXplore
  • Abalonyx
  • 2D Carbon Tech
  • Versarien
  • Cal Tech
  • Graphene Square
  • 2D Tech

圖表清單

目錄

Graphene is latest discovery belonging to the group of carbon allotropes and can be considered as among the leading versatile material ever discovered on the earth. Its amazing properties like light weight, extremely high mechanical strength make it an ideal material for many applications. The amazing properties of graphene also include excellent electrical and thermal conductivity, thinness, selective permeability, electronic and optical properties. These properties together make graphene a versatile material that can be integrated into a huge number of applications.

Graphene is undoubtedly emerging as one of the most promising nanomaterials because of its unique combination of superb properties, which opens a way for its usage in a wide spectrum of applications ranging from electronics to optics, sensors, and bio-devices. It is an allotrope of carbon in the form of a two-dimensional, atomic-scale, hexagonal lattices with each atom forming each vertex. Graphene is the smallest unit of carbon with one-atom carbon thus forming the basic structural element of other allotropes, including graphite, charcoal, carbon nanotubes and fullerenes.

At present, the industrial applications of graphene are minuscule compared to its potential in various fields. The major concerns for the commercialization of graphene are high costs and low production. This scenario is likely to change in next 5 years or even less due to ongoing researches on graphene that will continue to reduce the costs and broadening the scope of applications. More discussions about graphene in various media will also affect in creation of greater awareness on this material and subsequently will speed up the process of technological adaptation of graphene in industrial applications. Hence, it will lead to expansion of graphene market by great extent.

Among several sectors, graphene finds its maximum number of applications in two rapidly growing areas, electronics and energy storage. Electronics already provides the maximum share in graphene market in terms of applications because of the excellent properties of graphene like thermal and electrical conductivity, optical transparency, high mechanical strength etc. These physical properties of graphene are also utilized in case of applications in energy sector, which are mostly concentrated in energy storage and photovoltaic panels for harnessing solar energy. With the technological progress these two industrial sectors are being considered as the two leading and fast emerging sectors across the world and hence steady efforts are on to achieve enhance device performance, energy efficiency, greater cost-effectiveness etc.

“Global Graphene Market Opportunity, Projects, Application & Patent Insight 2023” Report Highlights:

  • Introduction to Graphene
  • Graphene Applications by Sector (Biomedical, Electronics, Optoelectronics Energy, Composites Materials & Others)
  • Global Graphene Market Current Scenario
  • Global Graphene Market by Products, Applications & Region
  • Global Graphene Patent Database by Sector/Application
  • Global Graphene Market Commercial Projects by Sector/Application
  • Global Graphene Market Future Outlook by Products, Applications & Region

Analysis of the future market prospect of graphene with respect to areas of applications and geographical regions give some interesting movement patterns. These findings reflect favorable conditions for more investment and opportunities for further research and development. Electronics is very likely to continue as the largest component in the global graphene market in terms of applications until 2023 or even beyond that for some time. The share of the sector comprising composite materials seems to remain approximately same over the years with marginal decrease through 2023. On the other hand, energy sector shows substantial increase in market share along with other sectors. The rapid growth in the demand for solar PV cells and batteries are going to be the drivers behind this. Other sectors including biomedical, water treatment, mitigation of environmental pollutants etc. also look to grow considerably because of the increasing number of researches in these fields.

The success of different nanomaterials including graphene is being debated in many media indicating the difficulties to overcome the challenges. But most of those materials are in research phase and the markets for them are only in the initial days. So it is not wise to come to conclusion or write off them. Furthermore, the properties of graphene make it most amazing among all the nanomaterials and it can adapted to various applications. Analysis of the prospect of graphene connecting current and future markets shows quite positive for its future prospect. A lot of research will still be conducted on this that will only add more features to this expanding the list of potential applications and market as well.

Table of Contents

1. Overview of Graphene

  • 1.1. What is Graphene?
  • 1.2. Synthesis of Graphene
    • 1.2.1. Chemical Vapour Deposition(CVD)
    • 1.2.2. Mechanical Exfoliation
    • 1.2.3. Epitaxial Growth

2. Graphene Applications in Biomedical Industry

  • 2.1. Drug/Gene Delivery
  • 2.2. Tissue Engineering
  • 2.3. Imaging Techniques
  • 2.4. Therapeutics
  • 2.5. Antimicrobials

3. Graphene Applications in Composites Materials

  • 3.1. Coatings
  • 3.2. Rubber & Plastic
  • 3.3. Automotive
  • 3.4. Aerospace
  • 3.5. Sporting Goods

4. Graphene Applications in Electronics& Optoelectronics

  • 4.1. RFID
  • 4.2. Touchscreens
  • 4.3. Computing Chips

5. Graphene Applications in Energy

  • 5.1. Energy Conversion
    • 5.1.1. Solar Cells
    • 5.1.2. Fuel Cells
  • 5.2. Energy Storage
    • 5.2.1. Graphene based Supercapacitors
    • 5.2.2. Graphene Applications in Batteries

6. Graphene Applications in Environmental Remediation

  • 6.1.1. Water Purification/Treatment
  • 6.1.2. Carbon Capture & Storage (CCS)

7. Graphene Sensor Overview

8. Global Graphene Market Current Scenario

  • 8.1. By Graphene Products
  • 8.2. By Areas of Applications
  • 8.3. By Geographical Region

9. Global Graphene Patent Database by Sector/Application

  • 9.1. Graphene Production/Synthesis
  • 9.2. Graphene Properties
  • 9.3. Grpahene Device/Material
  • 9.4. Polymer & Composites
  • 9.5. Coatings & Mixtures
  • 9.6. Aerospace/Aviation
  • 9.7. Electronics
  • 9.8. Optoelectronics
  • 9.9. Battery
  • 9.10. Energy Storage
  • 9.11. Renewable Energy
  • 9.12. Energy Conversion
  • 9.13. Electrical
  • 9.14. Integrated Circuit
  • 9.15. Sensor
  • 9.16. Interconnect
  • 9.17. Biomedical
  • 9.18. Sporting Equipment
  • 9.19. Transistor
  • 9.20. Automotive
  • 9.21. Water Treatment/Purification
  • 9.22. Oil & Gas
  • 9.23. Semiconductor Devices
  • 9.24. Miscellaneous

10. Global Graphene Market Commercial Projects by Sector/Application

  • 10.1. Production/Synthesis of Graphene
  • 10.2. Graphene Properties
  • 10.3. Grpahene Films/Arrays
  • 10.4. Graphene Based/Derived Materials
  • 10.5. Medical & Pharmacy
  • 10.6. Electronics
  • 10.7. Electrical
  • 10.8. Energy
  • 10.9. Polymer & Composites
  • 10.10. Mixtures & Coatings
  • 10.11. Sensors
  • 10.12. Environmental Remediation
  • 10.13. Food Processing/Food safety
  • 10.14. Water Treatment/Purification
  • 10.15. Miscellaneous

11. Global Grpahene Market Favorable Parameters

  • 11.1. Multi-functional Properties of Graphene
  • 11.2. Simpler Production Process Than Other Carbon Nanomaterials
  • 11.3. Growing Use in Electronics & Energy Storage
  • 11.4. Diversity in Graphene Forms
  • 11.5. Extensive R&D Activities

12. Global Grpahene Market Commercialization Challenges

  • 12.1. Limited Production Volume
  • 12.2. High Cost of Production

13. Global Graphene Market Future Outlook

14. Competitive Landscape

  • 14.1. Haydale
  • 14.2. XG Sciences
  • 14.3. Applied Graphene Materials (AGM)
  • 14.4. Grafoid
  • 14.5. Graphene Frontiers
  • 14.6. ACS Materials
  • 14.7. Thomas Swan & Company
  • 14.8. Graphenea
  • 14.9. NanoXplore
  • 14.10. Abalonyx
  • 14.11. 2D Carbon Tech
  • 14.12. Versarien
  • 14.13. Cal Tech
  • 14.14. Graphene Square
  • 14.15. 2D Tech

List of Figures

  • Figure 2-1: Applications of Graphene in Various Biomedical Sector
  • Figure 2-2: Proliferation of the Cells in Cell Culture on Graphene Platform
  • Figure 2-3: Preparation of Fe3O4-GO Composites and T2 Weighted Cellular Images
  • Figure 2-4: Illustration of Photothermal Therapy & Photodynamic Therapy Mechanisms
  • Figure 2-5: Graphene Oxide Material for Development of Antimicrobials
  • Figure 8-1: Global - Graphene Market (US$ Million), 2015-17
  • Figure 8-2: Global - Graphene Market by Products (US$ Million), 2017
  • Figure 8-3: Global - Graphene Market by Products (%), 2017
  • Figure 8-4: Global - Graphene Market by Applications (US$ Million), 2017
  • Figure 8-5: Global - Graphene Market by Applications (%), 2017
  • Figure 8-6: Global - Graphene Market by Region (US$ Million), 2017
  • Figure 8-7: Global - Graphene Market Region (%), 2017
  • Figure 13-1: Global - Graphene Projected Demand (Tons), 2019, 2021 & 2023
  • Figure 13-2: Global -Graphene Projected Market Size (US$ Million), 2019, 2021 & 2023
  • Figure 13-3: Global - Graphene Market by Applications (US$ Million), 2019, 2021 & 2023
  • Figure 13-4: Global - Graphene Market by Applications (%), 2019
  • Figure 13-5: Global - Graphene Market by Applications (%), 2023
  • Figure 13-6: Global - Graphene Market by Region (US$ Million), 2019, 2021 & 2023
  • Figure 13-7: Global - Graphene Market by Region (%), 2019
  • Figure 13-8: Global - Graphene Market by Region (%), 2021
  • Figure 13-9: Global - Graphene Market by Region (%), 2023

List of Tables

  • Table 2-1: Therapeutic Molecules Loaded onto Graphene Materials for Drug Delivery
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