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次世代太陽光発電材料の見通し

Materials for Next-Generation Photovoltaics - 2014-2021

発行 n-tech Research, a NanoMarkets company 商品コード 304690
出版日 ページ情報 英文 165 Pages
納期: 即日から翌営業日
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次世代太陽光発電材料の見通し Materials for Next-Generation Photovoltaics - 2014-2021
出版日: 2014年09月02日 ページ情報: 英文 165 Pages
概要

ソーラーパネル産業が再燃する中で、依然としてその焦点は変換効率を改善する材料に定められています。

当レポートでは、次世代ソーラー材料の発展の見通しについて調査し、各種次世代PV技術のコストおよび効率の比較、シリコンPVの新しい市場機会の検証、薄膜PVにおける改良、次世代OPV・DSC向け材料および各種ナノ材料の出荷量および収益予測、主要サプライヤーによる商業化戦略などをまとめています。

エグゼクティブサマリー

第1章 イントロダクション

  • PV技術の分類
  • 次世代PV技術の効率・コストの比較
  • 標準的C-Si PV技術の進化
  • N型Si PV技術のプレゼンスの拡大
  • 次世代C-Si区分の近年の開発
  • 薄膜技術の運命
  • 潜在的次世代PV材料
  • 次世代薄膜PVの近年の発展

第2章 シリコンPVの新しい市場機会

  • 次世代C-Si技術
  • 新しいN型ドーパントの必要性
  • N型ドーパントの近年の開発
  • N型基板の動向
  • 薄膜シリコンPVの見込み
  • ナノシリコンソリューションの状況
  • 特筆すべき製造動向
  • 本章の要点

第3章 次世代薄膜PV

  • CIGSの復活?
  • CZTSとその変異型:新しい薄膜ワンダーマテリアル?
  • その他の潜在性のある薄膜材料
  • CdTeベースの薄膜PV技術の改良
  • 新しい薄膜PV材料の主要サプライヤー
  • 薄膜PVの製造オプションの改良
  • 本章の要点

第4章 OPV・DSC:次世代

  • OPVの将来
  • ペロブスカイト:次世代DSC?
  • DSC材料の主要サプライヤー
  • 次世代OPV・DSCの材料:8カ年予測
  • 本章の要点

第5章 次世代PV向けナノ材料

  • 量子ドットPV:将来の可能性
  • QD PVで確実視されている材料
  • QD PVの材料・パネルの主要サプライヤー
  • 次世代PVにおけるカーボンンナノチューブ
  • カーボンンナノチューブ:吸収体・光活性層
  • カーボンンナノチューブ:透明導電体
  • 次世代PVにおけるグラフェン
  • グラフェン
  • グラフェン:吸収体・光活性層
  • グラフェン:透明導電体
  • 次世代PV用透明導電体向け銀ナノワイヤー/金属メッシュ
  • 次世代PVにおける半導体ナノワイヤーの潜在的用途
  • 次世代PV向けナノ材料の主要サプライヤー
  • 次世代PV向けナノ材料:8カ年予測
  • 本章の要点
目次
Product Code: Nano-733

The PV boom and bust has rebooted efforts to commercialize the next generation of materials platforms for solar panels. There has recently been a resurgence of the solar panel industry but many of the surviving firms are Chinese companies making conventional crystalline silicon (c-Si) panels. Also surviving is First Solar with its stable and ongoing production of CdTe.

With the solar panel industry now back on track, however, the search is on once more for materials platforms that improve the conversion efficiency of solar panels, both now and in the future. Some of these are close at hand - novel approaches to doping silicon panels are a good example here. Meanwhile, the thin-film PV sector is looking for its next success after CdTe. This could be CIGS, but there are also several other complex materials that are being developed for next generation thin-film solar and which are now beginning to receive serious commercial attention.

We are also seeing the solar industry beginning to think out of the box with a slew of entirely new nanomaterials such as quantum dots, nanowires, nanotubes and graphene. The commercialization of these materials for solar applications lies a few years off. But eventually they will offer radical new ways to boost the performance of the absorber, photoactive and electrode layers in next-generation solar panels.

In this report NanoMarkets develops a roadmap for next-generation solar materials and analyzes their revenue potential over the next eight years. The report includes a granular eight-year forecast of quantities shipped of these materials and revenues generated. The report also examines the commercialization strategies of the suppliers already actively involved in this space as well as the opportunities emerging for start-ups.

Table of Contents

Executive Summary

  • Objectives and Scope of This Report
  • Methodology and Information Sources
  • Plan of This Report
  • Key Technology Trends In Solar Panels
  • Rethinking Cell Structures
  • New Directions In Absorber and Photoactive Materials
  • Materials Trends In Solar Panel Electrodes
  • The Start-Up Potential for Next-Generation Solar Industry
  • Opportunities for Material Firms and Specialty Chemical Industry
  • How New Materials Could Expand the Addressable Market for Solar Panels
  • Six Firms to Watch
  • Forecast Assumptions
  • Summary of Eight-Year Forecast of Next-Generation PV Materials

Chapter One: Introduction

  • Classification of PV Technologies
  • Efficiency and Cost Comparison of Next-Generation PV Technologies
  • Evolution of the Standard C-Si PV Technology
  • Growing Preference for N-Type Si PV Technology
  • Recent Developments In the Next-Gen C-Si Segment
  • Fate of Thin-Film Technology
  • Potential Next-Generation PV Materials
  • Recent Developments In Next-Gen Thin-Film PV

Chapter Two: Emerging Opportunities In Silicon Photovoltaics

  • Next-Gen C-Si Technologies
  • Need for New N-Type Dopants
  • Recent Developments In N-Type Dopants
  • Trends In N-Type Substrates
  • Is there Hope for Thin-Film Silicon PV?
  • Status of Nano-Silicon Solutions
  • Notable Manufacturing Trends
  • Key Points Made In This Chapter
  • Chapter Three: the Next-Generation Thin-Film PV
  • CIGS Resurgent?
  • CZTS and Its Variants: the New Thin-Film Wonder Material?
  • Other Potential Thin-Film Materials
  • Improving CdTe Based Thin-Film PV Technology
  • Key Suppliers of Novel Thin-Film PV Materials
  • Improving Manufacturing Options for Thin-Film PV
  • Key Points Made In This Chapter

Chapter Four: OPV and DSC: the Next Generation

  • The Future of OPV
  • Perovskites: Next-Generation DSC?
  • Key Suppliers of DSC Materials
  • Eight-Year Forecast of Materials for Next-Generation OPV and DSC
  • Key Points Made In This Chapter

Chapter Five: Nanomaterials for Next-Generation PV

  • Quantum Dot PV: How Far In the Future?
  • Promising Materials for QD PV
  • Suppliers of Materials and Panels for QD PV
  • Carbon Nanotubes In Next-Generation PV
  • Carbon Nanotubes: Absorber and Photoactive Layer
  • Carbon Nanotubes: Transparent Conductor
  • Graphene In Next-Generation PV
  • Graphene
  • Graphene: Absorber and Photoactive Layer
  • Graphene: Transparent Conductor
  • Silver Nanowires/Metal Meshes for Transparent Conductors In Next-Generation PV
  • Possible Uses for Semiconductor Nanowires In Next-Generation PV
  • Suppliers of Nanomaterials for Next-Generation PV
  • Eight-Year forecast of Nanomaterials for Next-Generation PV
  • Key Points Made In This Chapter
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