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市場調查報告書

量子點的新的市場機會

Emerging Opportunities for Quantum Dots

出版商 Frost & Sullivan 商品編碼 763621
出版日期 內容資訊 英文 85 Pages
商品交期: 最快1-2個工作天內
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量子點的新的市場機會 Emerging Opportunities for Quantum Dots
出版日期: 2018年12月19日內容資訊: 英文 85 Pages
簡介

量子點用於太陽能光伏發電和醫療設備的領域,但顯示器上的應用正在成為商業性用途的焦點。配合3D印刷,與4k·8k的超高清晰 (UHD) 顯示器等技術,量子點大幅提升了消費者的視覺體驗。

本報告提供量子點的新的市場機會調查,彙整技術趨勢,主要的革新和相關利益者,各種用途,引進推進因素與課題,市場潛在性與市場機會,專利趨勢,投資趨勢,成長策略分析,策略性建議等資料。

第1章 摘要整理

第2章 技術趨勢·市場機會

  • 主要要素分析:'量子點'概念
  • 各種產業上量子點:概要
  • 量子點的新市場機會

第3章 技術的現狀·評估

  • 技術融合實現量子點開發
  • 主要加入企業開發量子點技術
  • 最具創新性的量子點發展
  • 量子點發展的跨行業滲透
  • 量子點開發驅動的產品創新
  • 推動量子點解決方案的新方法
  • 技術協同重塑價值鏈
  • 技術和商業前景:加速器
  • 技術和商業前景:挑戰

第4章 市場潛在性·各種產業上量子點技術的影響

  • 市場動態·市場機會
  • 市場潛在性:各產品類型
  • 市場潛在性:各材料
  • 市場潛在性:各用途
  • 市場潛在性:各地區
  • 市場潛在性:摘要
  • 主要市場領導
  • 地區趨勢:北美
  • 地區趨勢:歐洲·亞洲

第5章 智慧財產權分析

  • 技術轉移相關評估·認識
  • 顛覆性量子點照明解決方案
  • 顛覆性量子點顯示器技術
  • 顛覆性量子點雷射技術
  • 顛覆性量子點太陽能電池·PV
  • 顛覆性量子點生命科學·醫療設備

第6章 資金籌措·投資環境

  • 資金籌措·投資模式·引進
  • 資金籌措·投資趨勢·焦點
  • 民間資金籌措·投資的分佈
  • 公共資金籌措·投資的分佈
  • 定價模式·全球引進趨勢
  • M&A·聯盟概要

第7章 技術藍圖·成長機會

  • 技術的成熟度層級·概要
  • QD薄膜技術的成熟度
  • QD感應技術的成熟度
  • QD過濾器技術的成熟度
  • QD晶載技術的成熟度
  • QD發光技術的成熟度
  • 藍圖
  • 未來的路程:QD革新模式
  • 經營模式雜合反應
  • 未來展望

第8章 效能基準·策略性建議

  • 多標準基準方法
  • 策略性組合評估
  • 第1級標準:革新開發
  • 第1級標準:財務實際成果
  • 第1級標準:市場演進
  • 第2級標準:成功的主要行動
  • 分析績效結果
  • 多標準最終評估
  • 熱門的量子點技術平台
  • Nanoco:VIVODOTS 計劃
  • Quantum Materials' Tetrapod QDs Films
  • Thermo Fisher:Qdot 生物結合物
  • Nanosys:QDEF Engineered板
  • Osram:晶載量子點
  • Samsung:電場發光QD顯示器
  • 策略性商務案例
  • 重要成功因素

第9章 產業的主要影響因素

目錄
Product Code: D87B

Displays, Lighting, Lasers, Solar Cells, and Medical Devices Drive Growth Opportunities for QDs

Quantum dots (QDs) can be defined as nanoscale semiconducting materials whose optical properties strongly differ according to its physical size due to quantum mechanical effects. QDs are able to absorb and emit photons within a narrow spectral range according to the particle size. Suspended in liquid media, QDs enable coating of the material through a variety of low-cost techniques, such as spin coating, spray, and dip coating among many other large-surface coating procedures.

The distinctive features of QDs are attributed to its ability to tune light emission to a specific wavelength as well as its ability to use a single semiconducting material to emit different wavelengths by using particles of different sizes. Such distinct properties of QD enable generation of a white light output from red and green light coupled with a blue light-emitting diode (LED) light source. This leads to improvement in color gamut compared to yellow Cerium-doped Yttrium aluminum garnet (Ce:YAG) phosphors. Additionally, energy efficiency is enhanced as QDs re-emit most of the incoming light energy.

QDs find significant use in photovoltaics and medical devices applications. However, commercial use is certainly focused on displays. Complementary technologies such as 3D printing and 4K and 8K ultra-high-definition (UHD) displays are enabling QDs to enhance consumer visual experience.

Recent innovations in QDs are focused on addressing environmental concerns related to the presence or absence of cadmium or other heavy metals. Cadmium-free QDs exhibit higher growth rate due to their positive impact on products that are likely to be subjected to safety and environmental regulations.

The technology and innovation report covers the following topics:

  • Technology trends and developments
  • Key innovations and stakeholders
  • Applications landscape
  • Drivers and Challenges
  • Market potential, trends, and opportunities
  • Patent and Funding Trends and Key insights
  • Technology roadmap
  • Strategic perspectives on emerging growth opportunities

Table of Contents

1.0. EXECUTIVE SUMMARY

  • 1.1. Quantum Dots: The Bigger Picture
  • 1.2. Research Focus: Quantum Dots Technology
  • 1.3. Research Scope: Unveiling Novel Applications
  • 1.4. Analysis Framework: Frost & Sullivan's Core Value
  • 1.5. Research Methodology: Five Steps Toward Success

2.0. TECHNOLOGY TRENDS AND OPPORTUNITIES

  • 2.1. Key Elements of Analysis: The ‘Quantum Dot' Concept
  • 2.2. Brief Overview of Quantum Dots Across Industries
  • 2.3. Emerging Opportunities for Quantum Dots

3.0. TECHNOLOGY STATUS REVIEW AND ASSESSMENT

  • 3.1. Technologies Convergence Enabling Quantum Dots Development
  • 3.2. Top Participants Developing Quantum Dots Technology
  • 3.3. Most Innovative Quantum Dots Developments
  • 3.4. Cross-Industry Penetration of Quantum Dot Developments
  • 3.5. Product Innovation Driven by Quantum Dots Development
  • 3.6. New Approaches Driving Quantum Dot Solutions
  • 3.7. Technology Synergy Reshaping Value Chain
  • 3.8. Technology and Business Landscape: Accelerators
  • 3.9. Technology and Business Landscape: Challenges

4.0. MARKET POTENTIAL AND IMPACT OF QUANTUM DOTS TECHNOLOGY IN DIFFERENT INDUSTRIES

  • 4.1. Market Dynamics and Opportunities
  • 4.2. Market Potential: Product Type Focus Segmentation
  • 4.3. Market Potential: Material Focus Segmentation
  • 4.4. Market Potential: Application Sector Focus Segmentation
  • 4.5. Market Potential: Region Focus Segmentation
  • 4.6. Market Potential: Segmentation Summary
  • 4.7. Prominent Quantum Dots Market Leaders
  • 4.8. Regional Developments in Quantum Dots: North America
  • 4.9. Regional Developments in Quantum Dots: Europe and Asia

5.0. INTELLECTUAL PROPERTY ANALYSIS

  • 5.1. Technology Transfer Assessment and Perceptions
  • 5.2. Disruptive Quantum Dots Lighting Solutions
  • 5.3. Disruptive Quantum Dots Display Technologies
  • 5.4. Disruptive Quantum Dots Laser Technologies
  • 5.5. Disruptive Quantum Dots Solar Cells and Photovoltaics
  • 5.6. Disruptive Quantum Dots Life Sciences and Medical Devices

6.0. FUNDING AND INVESTMENT LANDSCAPE

  • 6.1. Funding and Investment Models and Adoption
  • 6.2. Funding and Investment Trends and Focus
  • 6.3. Private Funding and Investment Distribution
  • 6.4. Public Funding and Investment Distribution
  • 6.5. Pricing Models and Global Adoption
  • 6.6. Mergers, Acquisitions, and Partnerships Snapshot

7.0. TECHNOLOGY ROADMAP AND GROWTH OPPORTUNITIES

  • 7.1. Technology Maturity Level and Description
  • 7.2. QD Films Technology Maturity
  • 7.3. QD Sensors Technology Maturity
  • 7.4. QD Filters Technology Maturity
  • 7.5. QD On-Chip Technology Maturity
  • 7.6. QD Emissive Technology Maturity
  • 7.7. Roadmap
  • 7.8. The Road Ahead: The QD Innovation Model
  • 7.9. Business Model Hybridization
  • 7.10. Future Perspectives on Quantum Dots

8.0. PERFORMANCE BENCHMARKING AND STRATEGIC RECOMMENDATIONS

  • 8.1. Multicriteria Approach for Benchmarking
  • 8.2. Strategic Portfolio Assessment
  • 8.3. Level 1 Criteria: Innovation Development
  • 8.4. Level 1 Criteria: Financial Performance
  • 8.5. Level 1 Criteria: Market Evolution
  • 8.6. Level 2 Criteria: Key Actions for Success
  • 8.7. Analytic Performance Results
  • 8.8. Multicriteria Final Assessment
  • 8.9. Quantum Dots Technology Platforms to Watch
  • 8.10. Nanoco's VIVODOTS™ Project
  • 8.11. Quantum Materials' Tetrapod QDs Films
  • 8.12. Thermo Fisher's Qdot® Bioconjugates
  • 8.13. Nanosys' QDEF® Engineered Sheets
  • 8.14. Osram's On-Chip Quantum Dots
  • 8.15. Samsung's Electroluminescent QD Displays
  • 8.16. Strategic Business Cases
  • 8.17. Critical Success Factors

9.0. KEY INDUSTRY INFLUENCERS

  • 9.1. Key Industry Influencers
  • 9.2. Key Industry Developers
  • 9.3. Key Industry Innovators
  • Legal Disclaimer
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