Global Trimethyl Indium (CAS 3385-78-2) Market Outlook 2016-2021
Trimethy lindium or Trimethylindium (abbr. TMI or TMIn), is the preferred organometallic source of indium for metalorganic vapour phase epitaxy (MOVPE) or metal organic chemical vapor deposition (MOCVD) of indium-containing compound semiconductors, such as InP, InAs, InN, InSb, GaInAs, InGaN, AlGaInP, AlInP, AlInGaNP, etc.
Trimethylindium is produced as white/colorless, crystalline solid/needle (melting point 88°C, boiling point 136°C). Trimethylindium is pyrophoric (ignites spontaneously upon contact with air), and its decomposition is often found to be uncontrollable as the temperature of its surrounding exceeds its melting point (i.e. > 88°C) and reaches 101 °C and above. Trimethylindium is also reported to exhibit autocatalytic behavior during its thermal decomposition. Trimethylindium therefore needs to be handled with the utmost care and caution, e.g. stored in preferably cool, dry place at 0-25°C, and operating temperatures under 50 °C in order to avoid deterioration. Trimethylindium also reacts extremely violently with oxidizers and polyhalogenated compounds (such as CCl4 or CBrCl3), with which Trimethylindium is therefore incompatible. Hence, mixtures of Trimethylindium with oxidizers and/or polyhalogenated compounds must be avoided as they are potentially dangerous and explosive.
The trimethylindium industry has changed significantly in recent years through trans-national consolidations and co-operations. Much of the potential is in emerging markets, especially China. Emerging markets represent more than xx% of the worldwide market today while EMEA and North America account for most of the remainder. This has opened many markets to competition, consolidation and technical progress.
The global trimethylindium production, which measures output worldwide, was expected to reach xx kilograms in 2016 with an increase of xx% from its year-earlier level. The global trimethylindium market size is estimated to grow from USD xx million in 2011 to USD xx million by 2016, at an estimated CAGR of xx% between 2011 and 2016. With regards to this, key players of trimethylindium industry are expected to find potential opportunities in this market.
The global trimethylindium market report profiles some of the key technological developments in the recent times. It also profiles some of the leading players in the market and analyzes their key strategies. The competitive landscape section of the report provides a clear insight into the market share analysis of key industry players. The major players in the global trimethylindium market are AkzoNobel, Jiangxi Jiayin, Jiangsu Nata, Sigma-Aldrich, Dow, Baoding Botai, Argosun, Albemarle, Chemtura, UBE, etc.
The global trimethylindium industry is relatively concentrated, with the market share of top 10 trimethylindium producers at xx%.
Trimethylindium is produced as white/colorless, crystalline solid/needle (melting point 88°C, boiling point 136°C). Trimethylindium is pyrophoric (ignites spontaneously upon contact with air), and its decomposition is often found to be uncontrollable as the temperature of its surrounding exceeds its melting point (i.e. > 88°C) and reaches 101 °C and above. Trimethylindium is also reported to exhibit autocatalytic behavior during its thermal decomposition. Trimethylindium therefore needs to be handled with the utmost care and caution, e.g. stored in preferably cool, dry place at 0-25°C, and operating temperatures under 50 °C in order to avoid deterioration. Trimethylindium also reacts extremely violently with oxidizers and polyhalogenated compounds (such as CCl4 or CBrCl3), with which Trimethylindium is therefore incompatible. Hence, mixtures of Trimethylindium with oxidizers and/or polyhalogenated compounds must be avoided as they are potentially dangerous and explosive.
The trimethylindium industry has changed significantly in recent years through trans-national consolidations and co-operations. Much of the potential is in emerging markets, especially China. Emerging markets represent more than xx% of the worldwide market today while EMEA and North America account for most of the remainder. This has opened many markets to competition, consolidation and technical progress.
The global trimethylindium production, which measures output worldwide, was expected to reach xx kilograms in 2016 with an increase of xx% from its year-earlier level. The global trimethylindium market size is estimated to grow from USD xx million in 2011 to USD xx million by 2016, at an estimated CAGR of xx% between 2011 and 2016. With regards to this, key players of trimethylindium industry are expected to find potential opportunities in this market.
The global trimethylindium market report profiles some of the key technological developments in the recent times. It also profiles some of the leading players in the market and analyzes their key strategies. The competitive landscape section of the report provides a clear insight into the market share analysis of key industry players. The major players in the global trimethylindium market are AkzoNobel, Jiangxi Jiayin, Jiangsu Nata, Sigma-Aldrich, Dow, Baoding Botai, Argosun, Albemarle, Chemtura, UBE, etc.
The global trimethylindium industry is relatively concentrated, with the market share of top 10 trimethylindium producers at xx%.
PREFACE
PART 1. SCOPE OF REPORT
1.1 Methodology
1.2 Geographic Scope
1.3 Years Considered
PART 2. INTRODUCTION
2.1 Definition
2.2 MOCVD Process
2.3 Current Scenario
PART 3 VALUE CHAIN ANALYSIS
3.1 Upstream
3.1.1 Indium
3.1.2 Equipment
3.2 Downstream
PART 4. MANUFACTURE
4.1 Manufacturing Process
4.2 Manufacturing Costs
PART 5. WORLDWIDE KEY VENDORS
5.1 Dow (USA)
5.1.1 Business Overview
5.1.2 Products Offered
5.1.3 Business Performance
5.2 Akzo Nobel (Netherlands)
5.2.1 Business Overview
5.2.2 Products Offered
5.2.3 Business Performance
5.3 Sigma-Aldrich (USA)
5.3.1 Business Overview
5.3.2 Products Offered
5.3.3 Business Performance
5.4 Albemarle (USA)
5.4.1 Business Overview
5.4.2 Products Offered
5.4.3 Business Performance
5.5 Chemtura (USA)
5.5.1 Business Overview
5.5.2 Products Offered
5.5.3 Business Performance
5.6 Lake LED (Korea)
5.6.1 Business Overview
5.6.2 Products Offered
5.6.3 Business Performance
5.7 UBE (Japan)
5.7.1 Business Overview
5.7.2 Products Offered
5.7.3 Business Performance
5.8 Jiangsu Nata (China)
5.8.1 Business Overview
5.8.2 Products Offered
5.8.3 Business Performance
5.9 Jiangxi Jiayin (China)
5.9.1 Business Overview
5.9.2 Products Offered
5.9.3 Business Performance
5.10 Suzhou Puyao (China)
5.10.1 Business Overview
5.10.2 Products Offered
5.10.3 Business Performance
5.11 Argosun (China)
5.11.1 Business Overview
5.11.2 Products Offered
5.11.3 Business Performance
5.12 Baoding Botai (China)
5.12.1 Business Overview
5.12.2 Products Offered
5.12.3 Business Performance
PART 6. MARKET OVERVIEW
6.1 Global Production Volume 2011-2016
6.2 Production Volume by Region 2011-2016
6.2.1 China
6.2.2 North America
6.2.3 EMEA
6.2.4 Asia-Pacific
6.3 Global Production Value 2011-2016
6.4 Production Value by Region
6.4.1 China
6.4.2 North America
6.4.3 EMEA
6.4.4 Asia-Pacific
PART 7. CONSUMPTION PATTERN
7.1 Regional Consumption
7.1.1 China
7.1.2 North America
7.1.3 EMEA
7.1.4 Asia-Pacific
7.2 Global Consumption by Application
7.3 Chinese Consumption by Application
PART 8. MARKET FORECAST
8.1 Market Size Forecast
8.1.1 Market Size by Volume (KGS)
8.1.2 Market Size by Value (M USD)
8.2 Regional Consumption Forecast
8.2.1 China
8.2.2 North America
8.2.3 EMEA
8.2.4 Asia-Pacific
8.3 Consumption Forecast by Application
PART 9. MARKET DYNAMICS
9.1 Market Drivers
9.2 Market Constraints
9.2.1 Entry Barriers
9.2.2 Price of Raw Materials
9.2.2 Security
9.2.3 Rising Labor Costs
9.2.4 Exchange Rate
9.3 Market Strategies
9.4 Key Events
PART 10. INVESTMENT FEASIBILITY
10.1 Global Economic Highlight 2015
10.2 Recent Developments
10.3 The Updated Forecast
10.3.1 Advanced Economies
10.3.2 Emerging Market and Developing Economies
10.4 China Outlook 2016
10.5 Investment in China
10.5.1 Outlook on investment
10.5.2 Growth opportunities
10.5.3 Policy Trends
10.5.4 Conclusions
10.6 Feasibility of New Project
10.6.1 Basis and Presumptions
10.6.2 New Project in China
12. DISCLAIMER
12. ANALYST(S) CERTIFICATION
PART 1. SCOPE OF REPORT
1.1 Methodology
1.2 Geographic Scope
1.3 Years Considered
PART 2. INTRODUCTION
2.1 Definition
2.2 MOCVD Process
2.3 Current Scenario
PART 3 VALUE CHAIN ANALYSIS
3.1 Upstream
3.1.1 Indium
3.1.2 Equipment
3.2 Downstream
PART 4. MANUFACTURE
4.1 Manufacturing Process
4.2 Manufacturing Costs
PART 5. WORLDWIDE KEY VENDORS
5.1 Dow (USA)
5.1.1 Business Overview
5.1.2 Products Offered
5.1.3 Business Performance
5.2 Akzo Nobel (Netherlands)
5.2.1 Business Overview
5.2.2 Products Offered
5.2.3 Business Performance
5.3 Sigma-Aldrich (USA)
5.3.1 Business Overview
5.3.2 Products Offered
5.3.3 Business Performance
5.4 Albemarle (USA)
5.4.1 Business Overview
5.4.2 Products Offered
5.4.3 Business Performance
5.5 Chemtura (USA)
5.5.1 Business Overview
5.5.2 Products Offered
5.5.3 Business Performance
5.6 Lake LED (Korea)
5.6.1 Business Overview
5.6.2 Products Offered
5.6.3 Business Performance
5.7 UBE (Japan)
5.7.1 Business Overview
5.7.2 Products Offered
5.7.3 Business Performance
5.8 Jiangsu Nata (China)
5.8.1 Business Overview
5.8.2 Products Offered
5.8.3 Business Performance
5.9 Jiangxi Jiayin (China)
5.9.1 Business Overview
5.9.2 Products Offered
5.9.3 Business Performance
5.10 Suzhou Puyao (China)
5.10.1 Business Overview
5.10.2 Products Offered
5.10.3 Business Performance
5.11 Argosun (China)
5.11.1 Business Overview
5.11.2 Products Offered
5.11.3 Business Performance
5.12 Baoding Botai (China)
5.12.1 Business Overview
5.12.2 Products Offered
5.12.3 Business Performance
PART 6. MARKET OVERVIEW
6.1 Global Production Volume 2011-2016
6.2 Production Volume by Region 2011-2016
6.2.1 China
6.2.2 North America
6.2.3 EMEA
6.2.4 Asia-Pacific
6.3 Global Production Value 2011-2016
6.4 Production Value by Region
6.4.1 China
6.4.2 North America
6.4.3 EMEA
6.4.4 Asia-Pacific
PART 7. CONSUMPTION PATTERN
7.1 Regional Consumption
7.1.1 China
7.1.2 North America
7.1.3 EMEA
7.1.4 Asia-Pacific
7.2 Global Consumption by Application
7.3 Chinese Consumption by Application
PART 8. MARKET FORECAST
8.1 Market Size Forecast
8.1.1 Market Size by Volume (KGS)
8.1.2 Market Size by Value (M USD)
8.2 Regional Consumption Forecast
8.2.1 China
8.2.2 North America
8.2.3 EMEA
8.2.4 Asia-Pacific
8.3 Consumption Forecast by Application
PART 9. MARKET DYNAMICS
9.1 Market Drivers
9.2 Market Constraints
9.2.1 Entry Barriers
9.2.2 Price of Raw Materials
9.2.2 Security
9.2.3 Rising Labor Costs
9.2.4 Exchange Rate
9.3 Market Strategies
9.4 Key Events
PART 10. INVESTMENT FEASIBILITY
10.1 Global Economic Highlight 2015
10.2 Recent Developments
10.3 The Updated Forecast
10.3.1 Advanced Economies
10.3.2 Emerging Market and Developing Economies
10.4 China Outlook 2016
10.5 Investment in China
10.5.1 Outlook on investment
10.5.2 Growth opportunities
10.5.3 Policy Trends
10.5.4 Conclusions
10.6 Feasibility of New Project
10.6.1 Basis and Presumptions
10.6.2 New Project in China
12. DISCLAIMER
12. ANALYST(S) CERTIFICATION