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量子ドット太陽電池の技術動向および商業化の展望

Technology Trend and Commercialization Prospect of Quantum Dot Solar Cells

発行 SNE Research 商品コード 336551
出版日 ページ情報 英文 290 Pages
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量子ドット太陽電池の技術動向および商業化の展望 Technology Trend and Commercialization Prospect of Quantum Dot Solar Cells
出版日: 2015年08月30日 ページ情報: 英文 290 Pages
概要

量子ドット太陽電池のコンセプトは、現在の太陽電池の理論的限界を克服できる技術であるため、注目を浴びています。

当レポートでは、量子ドット太陽電池の物理的能力とその問題について取り上げ、ソリューション、将来の技術動向、および商業化されるまでの時間とその際の変換効率などを分析しており、韓国、中国、欧州および米国で登録された主な特許の動向、および世界の研究機関のR&d活動などをまとめ、お届けいたします。

第1章 量子ドット太陽電池

  • 量子ドット太陽電池の概要
  • 量子ドットの理論

第2章 発展する量子ドット太陽電池の技術:種類別

  • 化合物半導体
    • 基本原理・理論
    • 構造・製造手順
  • Si型
  • ナノ結晶/コアシェル

第3章 世界の研究機関のR&D動向

  • 欧州
    • Norwegian University of Science and Technology(NTNU)
    • Instituto de Energia Solar
    • University College London (UCL)
    • Fraunhofer Institute for Solar Energy Systems (FISES)
  • 米国
    • National Renewable Energy Laboratory (NREL)
    • Rochester Institute of Technology (RIT)
    • University of Arkansas
  • 日本
    • 産業技術総合研究所 (AIST)
    • 東京大学;先端科学技術研究センター (RCAST)
  • 韓国
    • Korea Research Institute of Standards and Science(KRISS)
    • Yeung Nam University
    • Korea Research Institute of Chemical Technology (KRICT)
  • 中国
    • Institute of Semiconductors, Chinese Academy of Sciences (ISCAS)
  • その他
    • University of Toronto

第4章 世界の量子ドット太陽電池の特許動向

  • 米国およびその他外国の特許
  • 国内特許

第5章 量子ドット太陽電池の効率の分析・展望

  • 現在の技術レベル・将来の技術動向
  • 将来の技術動向・ソリューションによって可能な効率の変化
  • 商業化までの問題、ソリューション、予測される商業化までの期間
  • 応用分野および将来の市場性

付録

目次

The concept of quantum dot solar cells is receiving attention as the technology that can overcome the theoretical limit of current solar cells. Talks on utilizing 3 physical characteristic of quantum dot is currently under process, and it is expected to bring up the efficiency of solar cells to 60% theoretically.

The 3 physical characteristic of quantum dot include:

  • 1. Expansion of absorption region of solar spectrum,
  • 2. Prevention of heat generation through photon emission and
  • 3. Minimization of energy loss through formation of miniband.

This report deals with the physical capabilities of quantum dot solar cells as well as its problems, researches that are mentioned as the solutions, future technology trend as well as the time and efficiency rate it take for the cells to be commercialized.

This reports contains the key patents' trend registered in Korea, China, Europe and United States by 2014 and global research institutes R&D activities.

Current efficiency rates and the required rates for commercialization, as well as the expected date of commerciazliation of compound semiconductor, silicon-based and nano-crystal/core-shell quantum dot solar cells are all included in the report.

Table: Roadmap of Quantum Dot Solar cells & Efficiency Condition for Commericialization


[Table 4-1-2] Research State of Quantum Dot Solar cells in Europe

Table of Contents

1. Quantum Dot Solar cells

  • 1.1. Outline of Quantum Dot Solar cells
  • 1.2. Quantum Dot Theory

2. Technology for Developing Quantum Dot Solar cells by Type

  • 2.1. Compound Semiconductor Quantum Dot Solar cells
    • Basic Principle and Theory
    • Structure and Production Procedure
      • Quantum Dot Solar cells using Multi Exciton Generation Effect
      • Quantum Dot Solar cells that applies the concept of Intermediate Band
      • Widening of spectral response (WSR)
    • Basic Principle and Theory
    • Structure and Production Procedure
  • 2.2. Si-based Quantum Dot Solar cells
    • Basic Principle and Theory
    • Structure and Production Procedure
    • Basic Principle and Theory
    • Structure and Production Procedure
  • 2.3. Nano-crystal/Core-shell Quantum Dot Solar cells
    • Basic Principle and Theory
    • Structure and Production Procedure
    • Basic Principle and Theory
    • Structure and Production Procedure

3. Research and Development Trends of Worldwide Research Institutes

  • 3.1. Europe
    • Norwegian University of Science and Technology(NTNU) (Norway)
      • Institute Overview, Research and Development Trend, Current Researches
    • Instituto de Energia Solar(Spain)
      • Institute Overview, Research and Development Trend, Current Researches
    • University College London (UCL)
      • Research and Development Trend, Current Researches
    • Fraunhofer Institute for Solar Energy Systems (FISES)
      • Research and Development Trend, Current Researches
  • 3.2. United States
    • National Renewable Energy Laboratory (NREL)
      • Institute Overview, Research and Development Trend, Current Researches
    • Rochester Institute of Technology (RIT)
      • Research and Development Trend, Current Researches
    • University of Arkansas
      • Research and Development Trend, Current Researches
  • 3.3. Japan
    • National Institute of Advanced Industrial Science and Technology(AIST)
      • Institute Overview, Research and Development Trend, Current Researches
    • University of Tokyo; Research Center for Advanced Science and Technology (RCAST)
      • Institute Overview, Research and Development Trend, Current Researches
  • 3.4. Korea
    • Korea Research Institute of Standards and Science(KRISS)
      • Institute Overview, Research and Development Trend, Current Researches
    • Yeung Nam University
      • Institute Overview, Research and Development Trend, Current Researches
    • Korea Research Institute of Chemical Technology (KRICT)
      • Institute Overview, Research and Development Trend, Current Researches
  • 3.5. China
    • Institute of Semiconductors, Chinese Academy of Sciences (ISCAS)
      • Research and Development Trend, Current Researches
  • 3.6. Others
    • University of Toronto
      • Research and Development Trend, Current Researches

4. Global Patent Trend of Quantum Dot Solar Battery

  • 4.1. United States and other Foreign Patents
  • 4.2. Domestic Patent

5. Analysis on Efficiency of Quantum Dot Solar cells and Prospects

  • 5.1. Level of Current Technology and Future Technology Trend
  • 5.2. Efficiency Changes Possible from Future Technology Trend and Solutions
  • 5.3. Problems until Commercialization, Solutions, Expected Commercialization Period
  • 5.4. Application Field and Future Marketability

6. Index

  • 6.1. Figure
  • 6.2. Table
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