Global and China MO Source Industry Report, 2012-2015
NEW YORK, Aug. 20, 2013 /PRNewswire/ -- Reportlinker.com announces that a new market research report is available in its catalogue:
Global and China MO Source Industry Report, 2012-2015
http://www.reportlinker.com/p01598632/Global-and-China-MO-Source-Industry-Report-2012-2015.html#utm_source=prnewswire&utm_medium=pr&utm_campaign=Electronic_Component_and_Semiconductor
High-purity metal organic compounds (MO source) function as the supporting source materials of the modern compound semiconductor industry and the source materials of the semiconductor lighting (LED) industry chain. After 2009, the explosive growth of the global LED industry has promoted the demand for MO source, which reached 53.5 tons in 2012, up 19.4% year on year. In the same period, due to the high technical threshold of the MO source industry, the speed of capacity expansion has been limited, as a result, the global MO source market witnessed an ever widening demand-supply gap for consecutive three years in 2009-2012. In particular, due to the wider demand-supply gap than other MO source products, trimethyl gallium (TMG) has become an investment highlight in the industry.
In 2012, Taiwan and South Korea gradually became new MO source production bases following the United States, Europe, Japan and Mainland China. Taiwan and South Korea are the most important production bases of the global LED industry and occupy a large proportion of upstream epitaxial wafer and chip manufacturing in the industrial chain, therefore, both of them act as the largest MO source consumer market. Meanwhile, Taiwan and South Korea have to import MO source products from Europe and America because of the absence of local manufacturers, resulting in the deteriorated contradiction between the regional supply and demand. Currently, Kaohsiung and Taoyuan of Taiwan as well as Cheonan and Yeosu of South Korea have become MO source investment hotspots.
China LED epitaxial chip industry performed sluggishly in 2012. The phasic overcapacity of low- and medium-end chips and falling prices led to the declined profitability of the majority of enterprises which suffered losses. Thus, Chinese MO source market saw slowdown in 2012 and dropping prices. However, with the improved Chinese LED industrial chain and the growing quantity of MOCVD equipment, the domestic MO source demand will surge in 2013, but the tight supply situation will still exist.
Jiangsu Nata Opto-electronic Material is the only MO source manufacturer in China and raised RMB780 million for capacity expansion by IPO in August, 2012. By 2015, the new capacity will be 22.5 tons, so that the total MO source capacity in Mainland China will amount to 26 tons.
Dow Chemical is the world's largest MO source supplier, serving international giants including Taiwan Epistar. In June 2010, the company announced a capacity expansion plan to build a new factory in South Korea which went operation in 2012 while expanding the capacity in the U.S.. The MO source capacity of Dow Chemical will reach 60 tons/a in the future.
The Netherlands-based AKZO Nobel set up its production base in the United States. In June 2010, the company raised the capacity of the production base in Tennessee by 100%. In November, 2010, the company announced to further double the TMG capacity. Currently, the expansion project is under construction. In addition, the company plans to establish a MO source production base in Ningbo city, China. The planned long-term capacity of the company is 100 t/a.
Global and China MO Source Industry Report, 2012-2015 consisting of five chapters makes in-depth analysis on development background and market patterns of global and China MO source industry with detailed data, studies the operation of eight Chinese and foreign large-sized MO source companies (DOW, AKZO Nobel, Jiangsu Nata Opto-electronic Material, etc. ), and predicts the development trends of the MO source industry.
1 Overview of MO Source
1.2 Classification and Application
1.3 Industrial Chain
1.4 Industry Features
1.4.1 High Concentration
1.4.2 High Growth Potential
2 Development of Global MO Source Industry
2.2 Supply
2.3 Demand
2.3.1 Influencing Factors
2.3.2 Demand Volume
2.3.3 Demand Structure
2.4 Market Competition Pattern
2.5 USA
2.6 Europe
2.7 Japan
2.8 South Korea
2.9 Taiwan
Summary
3 Development of MO Source Industry in China
3.1.1 Policy Environment
3.1.2 Trade Environment
3.1.3 Technology Environment
3.2 Supply
3.2.1 Production Capacity
3.2.2 Capacity Structure
3.3 Demand
3.4 Price Trend
Summary
4 Upstream and Downstream Industries of MO Source in China
4.1.1 Gallium
4.1.2 Indium
4.1.3 Related Policies and Influence
4.2 LED Industry
4.2.1 Market Scale
4.2.2 Competition Pattern
4.2.3 Development Prospects
4.3 Other Downstream Sectors
4.3.1 New Solar Cell
4.3.2 Phase Change Memory
4.3.3 Semiconductor Laser
4.3.4 Radio Frequency Integrated Circuit Chip
Summary
5 Key Enterprises Worldwide
5.1.1 Profile
5.1.2 Operation
5.1.3 Sales Structure
5.1.4 R&D
5.1.5 MO Source Business
5.1.6 Business in China
5.2 SAFC Hitech
5.2.1 Profile
5.2.2 Operation
5.2.3 MO Source Business
5.3 AKZO Nobel
5.3.1 Profile
5.3.2 Operation
5.3.3 MO Source Business
5.3.4 Business in China
5.4 Sumitomo Chemical
5.4.1 Profile
5.4.2 Operation
5.4.3 MO Source Business
5.4.4 Business in China
5.5 Albemarle
5.5.1 Profile
5.5.2 Operation
5.5.3 MO Source Business
5.5.4 Business in China
5.6 Chemtura
5.6.1 Profile
5.6.2 Operation
5.6.3 MO Source Business
5.6.4 Business in China
5.7 Lake LED Materials
5.7.1 Profile
5.7.2 MO Source Business
5.8 Nata
5.8.1 Profile
5.8.2 Operation
5.8.3 Revenue Structure
5.8.4 Gross Margin
5.8.5 Production and Marketing
5.8.6 Key Projects
Summary
To order this report:Electronic_Component_and_Semiconductor Industry: Global and China MO Source Industry Report, 2012-2015
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