The innovative global nanomaterial industry has experienced significant growth over the last five years and is expected to continue its high growth trajectory, surpassing US $6 billion by 2016 with a CAGR of 23% over the next five years.
Lucintel’s research indicates a positive future for nanomaterials and g
rowing demand due to new and emerging applications such as wind turbine blades, solar energy, drug delivery, nanomedicines, and water treatment. Application of stringent regulations during the development stage of nanomaterial technology may slow or inhibit its commercial expansion in some areas. The growth trend is likely to continue as nanomaterials gain even further acceptance for use in various new aircraft models and other emerging applications. Energy, health, and the personal care industry are expected to drive the market for nanomaterials during the forecast period. Government policies and initiatives that support alternative energy forms need to be monitored for their positive impact on future growth.
The study spotlights, North America and Europe as the best performers in 2010, with the Asia and the rest of the world continuing to develop. Significant growth is expected in the Asian region because of capacity expansion of various large players and also an expected demand increase in the electrical &electronics (E&E) and energy segments.
Lucintel’s report, which provides trend scenarios and forecast statistics for 2011–2016, details industry drivers and challenges, compares properties and prices, and highlights major nonmaterial suppliers. It also describes emerging trends and new opportunities in the global nanomaterials industry. In addition, the report considers nanomaterials for a variety of markets such as transportation, E&E, building and const
ruction, health and personal care, packaging, energy, consumer goods and more.
This unique report from Lucintel is expected to provide valuable information, insights, and tools needed to identify new growth opportunities and operate your business successfully in this market. Nanomaterials market report is estimated to save hundreds of hours of your own personal research time and is anticipated to significantly help in expanding your business in this market. In today’s unstable economy, you need every advantage that you can find to keep you ahead in your business.
To make business, investment, or strategic decisions, you need timely and adequate information. Nanomaterials market report fulfills this core need and is an indispensable reference guide for multi-national material suppliers, product manufacturers, investors, executives, distributors and many more, who are dealing with this market.
Some of the features of “Growth Opportunities in Global Nanomaterials Market 2011–2016: Trend, Forecast, and Opportunity Analysis” include these:
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Global nanomaterials market size in terms of value shipment and volume shipment
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Global nanomaterials market trend and forecast in terms of value and volume shipment
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Global nanomaterials market by segment
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Global nanomaterials market by region (North America, Europe, and ROW)
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Major growth drivers and challenges for global nanomaterials market
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Trend (2005-2010) and forecast (2011-2016) of global nanomaterials market by application, by region
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Growth opportunities in emerging applications of global nanomaterials market
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More than 86 figures/charts and 13 tables are provided in this roughly 153-page report
Table of Content
1. Executive Summary
2. Nanomaterial Industry Background and Classification
3. Global Nanomaterials Market Analysis
4. Global Nanomaterials Market Trend 2005-2010
5. Nanomaterials Market Forecast 2011-2016
6. Emerging Trends and New Opportunities in Global Nanomaterials Industry
List of Figures
Chapter 1
Figure 1.1: Porter’s Five Forces model for nanomaterials (nanoclay)
Figure 1.2: Porter’s Five Forces model for nanomaterials (CNTs)
Chapter 2
Figure 2.1: Nanomaterials value chain
Figure 2.2: Top to Bottom and Bottom Up process of metal nanopowders manufacturing
Figure 2.3: Montmorillonite nanoclay of 40 nm
Figure 2.4: Singlewall CNTs
Figure 2.5: Multiwall CNTs
Figure 2.6: Arc discharge method of CNT production
Figure 2.7: Laser furnace method of CNT production
Figure 2.8: Future applications of CNTs
Figure 2.9: Aluminum Oxide nanopowder size 200 nm
Figure 2.10: Quantum Dot
Figure 2.11: Fullerene
Figure 2.12: Difference between dendrimer and dendron
Figure 2.13: Graphene sheet
Chapter 3
Figure 3.1: Nanomaterials distribution by type of product in 2010 ($ M)
Figure 3.2: Global nanomaterials distribution by market segment in 2010
Figure 3.3: Global nanomaterials distribution by market segment in million pounds
Figure 3.4: Percentage comparison of nanomaterials in global E&E industry in 2010
Figure 3.5: Nanomaterials in global E&E industry in $ million 2010
Figure 3.6: Nanomaterials shipment in global E&E industry in million pounds
Figure 3.7: Key market opportunities in the E&E industry
Figure 3.8: Percentage comparison of nanomaterials in global transportation industry 2010
Figure 3.9: Nanomaterials in global transportation industry in $ million 2010
Figure 3.10: Nanomaterials in global transportation industry in million pounds in 2010
Figure 3.11: Key market opportunities in the transportation industry
Figure 3.12: Percentage comparison of nanomaterials in global building and construction industry in 2010
Figure 3.13: Nanomaterials in global building and construction industry in $ million 2010
Figure 3.14: Nanomaterials in global building and construction industry in million pounds in 2010
Figure 3.15: Key market opportunities in building and construction industry
Figure 3.16: Percentage comparison of nanomaterials in global health and personal care industry 2010
Figure 3.17: Nanomaterials in global health and personal care industry in $ million 2010
Figure 3.18: Nanomaterials in global health and personal care industry in million pounds in 2010
Figure 3.19: Key market opportunities in health and personal care industry
Figure 3.20: Nanomaterials in global energy industry 2010
Figure 3.21: Nanomaterials in global energy industry in $ million 2010
Figure 3.22: Nanomaterials in global energy industry in million pounds in 2010
Figure 3.23: Key market opportunities in energy industry
Figure 3.24: Percentage comparison of nanomaterials in global consumer goods industry 2010
Figure 3.25: Nanomaterials in global consumer goods industry in $ million 2010
Figure 3.26: Nanomaterials in global consumer goods industry in million pounds in 2010
Figure 3.27: Key market opportunities in consumer goods industry
Chapter 4
Figure 4.1: Global nanomaterial market growth trends (2005–2010) in $ million
Figure 4.2: Global nanomaterial market growth trends (2005–2010) in million pounds
Figure 4.3: Nanomaterials trend in million pounds by region (2005–2010)
Figure 4.4: Regional analysis of the nanomaterials market in $ million in 2010
Figure 4.5: Regional analysis of the nanomaterials market in million pounds in 2010
Figure 4.6: AGR for various market segment of the global nanomaterials market
2009–2010
Figure 4.7: CAGR for various market segment of the global nanomaterials market
2005–2010
Figure 4.8: Trend in North American nanomaterials shipment in $ million (2005–2010)
Figure 4.9: Trend in North American nanomaterials shipment in million pounds (2005–
2010)
Figure 4.10: Trend in European nanomaterials shipment in $ million (2005–2010)
Figure 4.11: Trend in European nanomaterials shipment in million pounds (2005–2010)
Figure 4.12: Trend in ROW nanomaterials shipment in $ million (2005–2010)
Figure 4.13: Trend in ROW nanomaterials shipment in million pounds (2005–2010)
Chapter 5
Figure 5.1: Forecast of growth rate of GDP of the US (2005–2010)
Figure 5.2: Forecast of the GDP of the leading world economies from 2005–2015
Figure 5.3: Forecast for nanomaterials shipment in million dollars in 2011–2016
Figure 5.4: Forecast for nanomaterials shipment in million pounds in 2011–2016
Figure 5.5: Growth forecast of global nanomaterials shipment by market segments in 2010‒2011
Figure 5.6: Growth forecast of global nanomaterials shipment by market segments in millions of dollars in 2011–2016
Figure 5.7: Forecast of global nanomaterials shipment in million dollars by market segment in 2011
Figure 5.8: Forecast of global nanomaterials shipment (million pounds) by market segment in 2011
Figure 5.9: Forecast of global nanomaterials shipment in million dollars by market segment in 2016
Figure 5.11: Forecast of global nanomaterials shipment (million pounds) by market segment in 2016
Figure 5.12: Forecast of North America nanomaterials shipment in million dollars in 2011–2016
Figure 5.13: Forecast of North America nanomaterials shipment (million pounds) in 2011–2016
Figure 5.14: Forecast of Europe nanomaterials shipment in million dollars in 2011–2016
Figure 5.15: Forecast of Europe nanomaterials shipment (million pounds) in 2011–2016
Figure 5.16: Forecast in ROW nanomaterials shipment in million dollars in 2011–2016
Figure 5.17: Forecast in ROW nanomaterials shipment (million pounds) in 2011–2016
Chapter 6
Figure 6.1: Emerging trends in global nanomaterials and nanocomposite industry
Figure 6.2: CNT prepreg by Nanoledge Inc.
Figure 6.3: Velozzi’s sports car using CNT composites
Figure 6.4: Nanomaterials application in Piranha (USV)
Figure 6.5: Nanomaterials application in aircraft
Figure 6.6: Two-dimensional nanosheets
Figure 6.7: Growth matrix of nanomaterials market globally (2005–2010)
Figure 6.8: Growth matrix of nanomaterials market globally (2011–2016)
Figure 6.9: Field emission display
Figure 6.10: Nanomaterials applications in drug delivery system
Figure 6.11: Nanomaterials applications in aircraft structure
Figure 6.12: Nanomaterials used in water purification
Figure 6.13: Application of CNTs in body armor
Figure 6.14: Application of nanomaterials in wind energy
List of Tables
Table 2.1: Compatibility between organic nanoclays and polymer systems
Table 2.2: Properties and general uses of prominent nanomaterials
Table 3.1: Factors affecting growth of CNT market
Table 3.2: Nanomaterials used in building and construction applications
Table 3.3: Nanomaterials in health and personal care applications
Table 4.1: Market trends (2005–2010) in global nanomaterials shipment
Table 4.2: Market trends (2005–2010) in global nanomaterials shipment in million pounds
Table 4.3: CAGR in various regions of the global nanomaterial industry
Table 4.4: Market size and annual growth rates in various segments of global nanomaterials Industry
Table 4.5: Market size and annual growth rates during last five years (2005–2010) in various market segments of global nanomaterials industry (Source: Lucintel)
Table 5.1: Market size and annual growth forecasts of the next five years (2011–2016) in various market segments of the global nanomaterial industry (Source: Lucintel)
Table 6.1: Growth applications for nanomaterials industry
Table 6.2: Opportunity analysis for future applications