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市場調查報告書
太陽光發電產業的銦市場
Indium Markets for Photovoltaics
| 出版商 |
NanoMarkets |
| 出版日期 |
2009年06月 |
商品編碼 |
89898 |
| 內容資訊 |
英文 79 Pages |
| 價格 |
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太陽光發電產業的銦市場 是由出版商NanoMarkets在2009年06月所出版的。
這份英文市場調查報告書包含79 Pages 價格從美金995起跳。
本報告書內容包括:太陽光發電產業的銦市場機會調查分析、太陽光發電的各種技術市場解說、做為透明電極材料的利用動向、銦消費量的8年預測等。內容綱要摘記如下:
實施概要
第1章 介紹
第2章 太陽光發電市場及技術
- 介紹:PV市場概要
- 太陽光發電市場及技術
- 結晶矽PV
- 薄膜矽PV
- CdTe PV
- CIGS PV
- 有機・DSC PV
- 其他PV
- 特殊金屬利用
第3章 太陽光發電的銦市場及市場機會
- 介紹
- PV用透明電極材料的ITO
- ITO的材料及加工
- CIGS的材料及加工
- PV用銦對銦市場整體造成的影響
- 銦製造・利用時的安全・健康・環境面考量
第4章 用於太陽光發電的銦:8年預測
- 預測方法
- 銦消費預測:PV技術別
- 銦消費預測:銦材料分類別
Abstract
Summary
Indium currently plays two important roles in the photovoltaic industry.
First, it is used in the form of indium tin oxide (ITO) - the transparent
conductor in PV devices. This is the largest role for indium in the PV
industry; however, the future of ITO is in question as better performing
transparent conductors emerge. Indium' s second role in the PV industry is as
one of the active materials in the thin-film PV technology copper
indium/gallium diselenide (CIGS) cells. While CIGS holds only a small
percentage of the PV market today, it is considered the wave of the future for
thin-film PV, and thus represents a growing market for indium.
The continuing hyper-growth in the PV industry combined with the expectation
that CIGS PV will take a more prominent position within this industry will
create a new demand pool for indium. This report will provide more on how this
growth will occur and what this will mean for indium producers. The report
will focus on traditional indium, but will also discuss the use of newer
materials such as indium-containing composites. The report begins with a
review of the state of the PV industry and then goes into indium' s current and
potential roles in each of the PV segments. Finally, the report quantifies the
opportunities for indium in the PV space through an eight-year forecast.
This report is one of a seven-report series on Metals in PV.
Table of Contents
Executive Summary
- E.1 Overview of Indium Use in PV Manufacturing
- E.2 Key Developments and Trends in the Use of Indium-Based Materials in PV
Manufacturing
- E.3 Opportunities for Mining, Refining, and Distribution Firms
- E.4 Opportunities for Indium-Based Material Firms
- E.5 Opportunities for Solar Panel Firms
- E.6 Summary of Eight-Year Forecasts
Chapter One: Introduction
- 1.1 Background to this Report
- 1.1.1 ITO in PV: Market Evolution
- 1.1.2 CIGS PV Overview
- 1.2 Objectives and Scope of this Report
- 1.3 Methodology of this Report
- 1.4 Plan of this Report
Chapter Two: Photovoltaic Markets and Technology
- 2.1 Introduction: PV Markets Overview
- 2.2 Photovoltaic Markets and Technologies
- 2.2.1 Crystalline Silicon PV
- 2.2.2 Thin-Film Silicon PV
- 2.2.3 CdTe PV
- 2.2.4 CIGS PV
- 2.2.5 Organic and DSC PV
- 2.2.6 Other PV
- 2.3 Specialty Metal Usage Within PV Technology
- 2.4 Key Points Made in this chapter
Chapter Three: Markets and Opportunities for Indium in Photovoltaics
- 3.1 Introduction: Overview of Indium' s Role in Photovoltaic Technology and
Markets
- 3.2 ITO' s Place Among Transparent Electrode Materials for PV
- 3.3 ITO Materials and Processes
- 3.3.1 Sputtering and Other Vacuum Deposition Materials and Methods for
ITO
- 3.3.2 Printing of ITO
- 3.3.3 Other Deposition Materials and Methods for ITO
- 3.4 CIGS Materials and Processes
- 3.4.1 Sputtering and Other Vacuum Deposition Materials and Methods for
CIGS
- 3.4.2 Electrodeposition of CIGS
- 3.4.3 Printing of CIGS
- 3.5 Impact of Broader Indium Markets on Indium for Photovoltaics
- 3.5.1 Indium Commodities Pricing
- 3.5.2 Indium Production and Recycling
- 3.6 Safety, Health, and Environmental Concerns with Indium Production and
Use
- 3.7 Key Points Made in this Chapter
Chapter Four: Eight-Year Forecasts of Indium in Photovoltaics
- 4.1 Forecasting Methodology
- 4.1.1 Data Sources
- 4.1.2 Scope of Forecast
- 4.1.3 Alternative Scenarios and Other Factors Taken into Consideration
- 4.2 Forecasts of Indium Consumption in PV by PV Technology
- 4.3 Forecasts of Indium Consumption in PV by Indium Material Type
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