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市場調查報告書

氧化石墨烯的可能性與評價

Opportunity Assessment of Graphene Oxide

出版商 Frost & Sullivan 商品編碼 883629
出版日期 內容資訊 英文 46 Pages
商品交期: 最快1-2個工作天內
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氧化石墨烯的可能性與評價 Opportunity Assessment of Graphene Oxide
出版日期: 2019年06月26日內容資訊: 英文 46 Pages
簡介

本報告是氧化石墨烯近年的開發趨勢與相關應用及相關材料的作用與未來的新機會之調查、氧化石墨烯的特徵、主要的創新機會、重點的研究領域、需要注意的技術開法、並詳細的分析引進的可能與影響的因素。

第1章 內容概要

第2章 技術概要

  • 氧化石墨烯:是一種特徵為單層片狀的石墨的氧化產物
  • 易於在水和其他溶劑中分散和成膜的能力是氧化石墨烯的重要區別特徵
  • 氧化石墨烯的獨有特徵與氧化石墨烯可擴展生產的石墨烯:高成本和商業生產技術可能會阻礙引進
  • 氧化石墨烯與石墨烯的主要特徵比較

第3章 創新指標

  • 使用於各種應用的氧化石墨烯開發與重點調查
  • 美國在過去的5年中領導了專利申請
  • 全球都有可能獲得政府出資
  • 全球合作/共同合作的普及
  • 針對電池□膜□感應器的氧化石墨烯開發與創新
  • 針對納米複合物□潤滑劑□氣凝膠的氧化石墨烯開發與創新
  • 針對塗料□淨水淨水的氧化石墨烯開發與創新
  • 針對生物傳感器□能源與區別光學鏡頭的氧化石墨烯開發與創新
  • 針對感應器□催化劑□水凝膠的氧化石墨烯開發與創新
  • 美國對於技術引進□商業化都非常積極
  • 英國□法國□德國是歐洲的技術開發□引進的主要國家
  • 中國□韓國是亞洲及環太平洋研究倡議的主要國家

第4章 應用情況

  • 氧化石墨烯有非常廣泛的應用可能性
  • 氧化石墨烯可以使用於需要持久性的儲能裝置
  • 氧化石墨烯的殘餘氧含量和表面積是影響傳感器引進的主要因素
  • 氧化石墨烯生物相容性和無毒特徵是影響生物醫學應用的關鍵因素
  • 氧化石墨烯是石墨烯合成是石墨烯唯一可擴展的生產技術
  • 輕、柔軟、與能改善機械特徵是能複合引進的主要原因

第5章 可能性評估□技術路徑映射

  • 未來可能引進氧化石墨烯的產業
  • 從應用來評估氧化石墨烯引進的可能
  • 主要的應用領域是石墨烯合成、生物醫學 & 儲能
  • 在感應器、複合材料與過濾方面的重要性評估

第6章 分析師觀點

第7章 聯繫方式

第8章 附錄

目錄
Product Code: D8C9

Biomedical, Energy Storage, and Graphene Synthesis Drive Adoption of Graphene Oxide

Graphene oxide (GO), due to its unique properties, is gaining the focus of researchers and companies alike for use in various industries including energy, batteries, electronics, materials and mobility. GO is found to exhibit requisite tribological properties as solid lubricants, oil-based lubricant additives, water-based lubricants additives and fillers for polymer-based composite materials, which makes it apt for use as additives in water based lubricants for imparting improved lubrication and provide a very low friction coefficient with no major surface wear.

This research service titles, "Opportunity Assessment of Graphene Oxide" discusses the recent developments in graphene oxide and also assess the role of the material in various applications and the emerging opportunities for the same. The research also provides a deep dive analysis of innovation ecosystem and highlights noteworthy technology developments.

In brief, the research study captures the following:

  • Overview of graphene oxide and its properties
  • Assessment of key innovations, research focus areas and technology developments.
  • Key factors that influence the adoption
  • Emerging opportunities for graphene oxide in various applications

Table of Contents

1.0. Executive Summary

  • 1.1. Research Focused on Graphene Oxide Gaining Prominence Across the Globe
  • 1.2. Research Methodology

2.0. Technology Snapshot

  • 2.1. Graphene Oxide - Oxidized Product of Graphite Characterised by Monolayer Flakes
  • 2.2. Ability to Easily Disperse in Water and other Solvents and Film Formation are Key Differentiating Features of Graphene Oxide
  • 2.3. Unique Properties of Graphene Oxide and Scalable Production of Graphene Using Graphene Oxide; High Cost and Lack of Commercial Production Techniques Might Hinder Adoption
  • 2.4. Comparison of Key Properties Between Graphene Oxide and Graphene

3.0. Innovation Indicators

  • 3.1. Research Publications Highlight Key Focus on the Development of Graphene Oxide for Various Applications
  • 3.2. USA Leads in Patent Filing in the Last Five Years
    • 3.2.1. Key Assignees in IP Filing: Graphene Oxide in Batteries and Membranes
    • 3.2.2. Key Assignees in IP Filing: Graphene Oxide in Sensors, Coatings, Composites and Lubricants and Sealants
  • 3.3. Government Funding is Prominent Across the Globe
  • 3.4. Partnerships/Collaborations are Common Across the Globe
  • 3.5. Innovations Focused on the Development of Graphene Oxide for Batteries, Membranes, Sensors
  • 3.6. Innovations Focused on the Development of Graphene Oxide for Nanocomposites, Lubricants, Aerogels
  • 3.7. Innovations Focused on the Development of Graphene Oxide for Coatings, Water Purification
  • 3.8. Innovations Focused on the Development of Graphene Oxide for Biosensors, Energy Harvesting, Optical Lens
  • 3.9. Innovations Focused on the Development of Graphene Oxide for Sensors, Catalysts, Hydrogel
  • 3.10. USA Active in Technology Adoption and Commercialization
  • 3.11. UK, France, Germany Are Key Countries in Europe to Focus on Technology Development and Adoption
  • 3.12. China and South Korea are Leading in Research Initiatives in APAC Region

4.0. Application Landscape

  • 4.1. Graphene Oxide Has A Wide Application Potential
  • 4.2. Graphene Oxide Can Be Used In the Development of Durable Energy Storage Devices
  • 4.3. Remnant Oxygen Moieties and Large Surface Area of Graphene Oxide are Key Factors Influencing Adoption in Sensors
  • 4.4. Biocompatible and Non-toxic Characteristics of Graphene Oxide Are The Key Factors That Impact The Adoption in Biomedical Applications
  • 4.5. Graphene Synthesis Via Graphene Oxide Is the Only Scalable Production Technique of Graphene
  • 4.6. Lightweight, Flexible and Ability to Improve Mechanical Properties Are The Key Factors That Impact The Adoption in Composites

5.0. Opportunity Evaluation and Technology Roadmapping

  • 5.1. Future Outlook of Graphene Oxide Adoption Across Industries
  • 5.2. Opportunity Evaluation for Adoption of Graphene Oxide Across Applications
  • 5.3. Graphene Synthesis, Biomedical & Energy Storage are the Key Application Areas
  • 5.4. Sensors, Composites and Filtration Likely to Gain Significance in Mid term

6.0. Analyst Perspectives

  • 6.1. High Opportunity of Success for Stakeholders who Focus on Developing Application Specific Graphene Oxide Solutions

7.0. Key Contacts

  • 7.1. Key Contacts

8.0. Appendix

  • 8.1. Opportunity Evaluation of Key Applications--Ratings
  • Legal Disclaimer
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