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市場調查報告書

能源生成與儲存轉型的奈米科技創新

Nanotechnology Innovations Transforming Energy Generation and Storage

出版商 Frost & Sullivan 商品編碼 723016
出版日期 內容資訊 英文 50 Pages
商品交期: 最快1-2個工作天內
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能源生成與儲存轉型的奈米科技創新 Nanotechnology Innovations Transforming Energy Generation and Storage
出版日期: 2018年09月28日內容資訊: 英文 50 Pages
簡介

本報告聚焦於能源生成及儲藏部門與解決方案中的奈米材料導入及創新,彙整應用概要、技術革新、專利動向、以及成長機會等內容。

第1章 摘要整理

第2章 能源生成與儲藏的奈米科技應用概要

  • 奈米科技具有轉變全球能源部門的可能性
  • 能源領域的技術開發及導入動向
  • 能源應用中推動奈米科技導入的全球及地區市場狀況
  • 改革的生態系統
  • 能源領域中的新機會與高度成長區塊
  • 對更加節省能源解決方案的需求是主要促進要因

第3章 活用太陽能的主要奈米科技創新

  • PV及CSP應用相關調查進行中
  • 太陽能面板用的奈米材料塗裝
  • 高成本效益的奈米電線製造技術、其他

第4章 風力發電部門主要奈米科技的創新

  • 奈米科技在風力能源中的主要領域為保護
  • 使葉輪能耐受嚴苛環境的樹脂
  • 延長葉輪壽命的奈米碳管、其他

第5章 能源儲藏的主要奈米科技創新

  • 以奈米材料為基礎的零件改良了能源及密度功能
  • 更優良的電池解決方案的鋰離子奈米材料
  • 可以提升電池充電速度的2D材料、其他

第6章 專利情況

  • 美國及中國領導能源儲藏奈米科技的專利活動
  • 美國機構及企業領導太陽能奈米科技的專利申請、其他

第7章 成長機會

  • 成長機會1:能源部門導向的新技術功能
  • 成長機會2:能源生成中奈米科技相關技術機會

第8章 結論及分析師觀點

第9章 主要契約

目錄
Product Code: D80F

An Overview of the Innovations in Nano-materials Helping to Improve the Efficiency of Energy Sources

Most of the distributed and renewable energy generation technologies are affected by the type of materials used in manufacturing them. The current technologies have a significant drawbacks and room for improvement specifically in terms of performance parameters like efficiency. Similarly protection of the renewable assets to gain more prolonged operational life time is another important area that can be benefit from the adoption of new materials. Nanomaterials are currently being used by researchers around the world in enhancing the energy sector. For instance nanomaterials based protective glasses and coatings for solar panels are considered to improve the performance of the panels and similarly new materials are also being considered for applications like performance of solar panels. Applications go beyond just generation into energy storage as well. Nanotechnology is considered for developing new electrode materials for batteries and fuel cells. The study focuses on the advantages of adopting nanomaterials in the energy generation and storage sectors, innovations focusing on the use of nanomaterials in energy generation and storage solutions.

Table of Contents

1.0. EXECUTIVE SUMMARY

  • 1.1. Research Scope
  • 1.2. Research Process and Methodology
  • 1.3. Key Findings

2.0. AN OVERVIEW OF APPLICATION OF NANOTECHNOLOGY IN ENERGY GENERATION AND STORAGE

  • 2.1. Nanotechnology Has Potential to Transform Global Energy Sector
  • 2.2. Technology Development and Adoption Trends Across Energy Segments
  • 2.3. Global Market and Regional Scenario that Push Adoption of Nanotechnology in Energy Applications
  • 2.4. Innovation Ecosystem
  • 2.4. Innovation Ecosystem (continued)
  • 2.5. Emerging Opportunities and High Growth Segments in Energy
  • 2.6. The Need for More Energy Efficient Solutions is a Key Driver

3.0. KEY NANOTECHNOLOGY INNOVATIONS IN HARNESSING SOLAR ENERGY

  • 3.1. Research Related to PV and CSP Applications are Underway
  • 3.2. Nanomaterial Coating for Solar Panels
  • 3.3. Cost-effective Nanowire Manufacturing Technology
  • 3.4. Solar Thermal Photovoltaics Using Nanomaterials
  • 3.5. Nanomaterial Production for Solar PV on Commercial Scale
  • 3.6. Solar PV and CSP Hybrid for Efficient Energy Generation
  • 3.7. Innovative Thermal Fluid for Efficient CSP Operation
  • 3.8. Nanoparticle-based Coating for High Efficiency CSP Plants

4.0. KEY NANOTECHNOLOGY INNOVATIONS IN WIND SECTOR

  • 4.1. Protection is the Primary Area of Application of Nanomaterials in Wind Energy
  • 4.2. Resin that can Enable Turbines to Withstand Harsh Conditions
  • 4.3. Carbon Nanotubes for Prolonging Turbine Lifetime
  • 4.4. Climate Resistant Wind Blades Through Nanomaterial Incorporation
  • 4.5. Nanolubricants for Gear Systems and Heavy Machinery

5.0. KEY NANOTECHNOLOGY INNOVATIONS IN ENERGY STORAGE

  • 5.1. Nanomaterial-based Components are Being Considered for Improved Energy and Density Capabilities
  • 5.2. Lithium Nanomaterials for Better Battery Solutions
  • 5.3. 2D Materials for Faster Charging Batteries
  • 5.4. Storage Solutions with Higher Cycles Support Capability
  • 5.5. Mid-temperature Range SOFC with Nanomaterial-based Electrodes
  • 5.6. Supercapacitors with Better Energy Density Through Nanotechnology

6.0. PATENT SCENARIO

  • 6.1. The US and China Lead Patent Activity in Nanotech for Energy Storage
  • 6.2. Institutions and Companies from US Lead Patent Filing in Nanotechnology for Solar Energy
  • 6.3. Lesser Patent Activity than Solar and Energy Storage

7.0. GROWTH OPPORTUNITIES

  • 7.1. Growth Opportunity 1: New Technology Capabilities for the Energy Sector
  • 7.2. Growth Opportunity 2: Technical Opportunities Related to Nanotechnology in Energy Generation

8.0. CONCLUSION AND ANALYST VIEWPOINT

  • 8.1. Collaborations Between Research Labs and Industrial Partners Would be Crucial

9.0. KEY CONTACTS

  • 9.1. Key Industry Participant Contacts
  • Legal Disclaimer
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