Recent High Efficiency Crystalline Si Solar Cell Technology and Market Forecast 2006~2015

2016 High Efficiency Crystalline Si Solar Cell Technology and Market Forecast 2014-2020

SNE, Date of Publication: Feb 17, 2016, 333 Pages
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The solar energy industry has been growing continuously with an average annual growth rate of 16.6% over the past five years. The industry is expected to grow 15.8% this year with the influence of the Paris climate conference and rapid decrease of generation cost. As can be seen from the extension of the tax credit system of the United States and goals of China and India to introduce 100GW of solar power by 2020 and 2022 respectively, major countries are definitely leading the growth of the industry. Also, many organizations are reporting that 40-50% of newly installed generation capacity globally was solar power.

In the trend of increasing demand for solar power every year, major solar cell/module producers are increasing production. Major Korean firms Hanwha Q CELLS and LG Electronics also are aggressively increasing production scale. In the first quarter of 2016 the cell and module production scale of Hanwha Q CELLS increased to 5.2GW and 5.5GW respectively and LG Electronics has announced that they will expand their current production scale of 1GW to 1.8GW until 2018-2019 and to 3.0GW after 2020. Not only they are increasing production capacity but also developing high efficiency crystalline silicon solar cells. New investment equipment of LG Electronics are all for high efficiency crystalline silicon solar cells (Ntype).

How much will the solar power market grow in 2020? How will the market shares of Ntype, Ptype, monocrystalline, and polycrystalline high efficiency cell/modules change in the future? Which of the high efficiency technologies such as PERC, PERT, SHJ, and Back Contact is likely to take the leadership in the future? What is the status of development of high efficiency solar cells of the major producers? All answers can be found in this report.

High Efficiency Crystalline Si Solar Cell Technology and Market Forecast
TBALE OF CONTENTS

Part 1. Trends of Crystalline Structure and High Efficiency Silicon Solar Cell Technologies
1. Introduction to Crystalline Si Solar Cells
2. Crystalline Si Solar Cell Technology using Screen Printing
2.1. Manufacturing Process
2.2. Efficiency Loss Mechanism
2.3. Trends of Technological Developments for Efficiency Increase and Price Decrease
3. Element Technologies for High Efficiency of Crystalline Si Solar Cells
3.1. Texturing
3.1.1. Laser Texturing
3.1.2. RIE Dry Etching Texturing
3.2. Doping
3.2.1. Laser Doping
3.2.2. Ion Implantation
3.3. ARC (Anti-reflective Coating)
3.4. Passivation
3.4.1. PECVD SiNx
3.4.2. ALD of Al2O3
3.5. Metallization
3.5.1. High Aspect Ratio Printing (Fine Print + Double Printing)
3.5.2. Plating
3.5.3. Ink Jet Printing
4. High Efficiency Crystalline Si Solar Cell Technologies
4.1. BCSC (Buried Contact Solar Cell) or LGBC (Laser Grooved Buried Contact)
4.2. LFC (Laser Fired Contact)
4.3. HIT (Hetero-junction with Intrinsic Thin Layer)
4.4. Back Contact Solar Cell
4.5. Passivated Emitter Solar Cell
4.6. Selective Emitter
4.7. Bifacial Cell
4.8. Quantum Dot Solar Cell
Part 2. Trends of High Efficiency Si Solar Cell Producers/Laboratories and Market Forecast
5. Trends of Technological Developments per Laboratory
5.1. Europe
5.2. United States
5.3. Australia
6. Trends of Technological Developments per Producer
6.1. China
6.2. Japan
6.3. Korea
6.4. Europe
6.5. United States
6.6. Taiwan
6.7. Status of Efficiency of High Efficiency Solar Cells per Producer (Cell & Module)
7. Current and Forecasted Efficiency of PV Cells
7.1. Current Champion Efficiency per Solar Cell Technology
7.2. Theoretical Efficiency Limit of Solar Cells and Forecast on Fused Forms of Solar Cells
7.3. ITRPV’s International Photovoltaics Technology Roadmap
8. Trends in the High Efficiency Crystalline Solar Cell Market
8.1. Current Status of the Global Solar Power Market and Forecast (2014~2020F)
8.2. Forecast of the High Efficiency Solar Cell Market (2013~2020F)
8.2.1. Forecast per High Efficiency Solar Cell Technology (2013~2020F)
8.2.2. Supply Forecast per High Efficiency Solar Cell Board Type (2013~2020F)
8.2.3. Price Forecast of High Efficiency Solar Cell Modules (2013~2020F)
8.2.4. Sales Forecast of High Efficiency Solar Cell Modules (2013~2020F)

Date of Publication:
Feb 17, 2016
File Format:
PDF via E-mail
Number of Pages:
333 Pages
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