This document provides an overview and analysis of the global carbon nanotube industry in 2015. It discusses carbon nanotube definitions, applications, market trends, production volumes and values, key companies, manufacturing processes, and development status in international markets like the US, Europe, Japan, and China. The report also analyzes factors like industry chain structure, policies, news, technology developments, and leading suppliers.
Global and china carbon fiber and cfrp industry report, 2016 2020ResearchInChina
The global carbon fiber demand amounted to 59,000 tons in 2015. 22%, 62% and 16% of carbon fiber were applied to aerospace, industries, and sports & leisure respectively. Specifically, the demand from industries grew fastest, especially from automobiles, wind power, pressure vessels and other market segments. By 2020, 72% of the global carbon fiber will be used in industries, of which 23% will be adopted by automobiles and 21% by wind power.
Growing demand for high performance, light weight materials in automotive and aerospace industries is expected to remain a key driving factor for the global carbon fiber reinforced plastics (CFRP) market.
For More Information Visit - http://www.grandviewresearch.com/industry-analysis/carbon-fiber-market
This report analyzes the worldwide markets for Carbon & Graphite in US$ Million by the following Product Segments: Carbon & Graphite Electrodes (Carbon Electrodes, & Graphite Electrodes), and Other Carbon & Graphite Products (C&G Automotive Brushes, C&G Industrial Brushes & Contacts, C&G Brush Plates, C&G Fibers, C&G Products For Electrical Uses, C&G Products For Mechanical Uses, C&G Products For Aerospace Uses, and C&G Products For Other Uses). The report provides separate comprehensive analytics for the US, Canada, Japan, Europe, Asia-Pacific, Latin America, and Rest of World. Annual estimates and forecasts are provided for each region for the period 2007 through 2015. Also, a seven-year historic analysis is provided for these markets. The report profiles 206 companies including many key and niche players such as Cabot Corporation, Carbone Lorraine, Evonik Degussa GmbH, GrafTech International Ltd., HEG Ltd., Hexcel Corporation, Mitsubishi Rayon Co. Ltd., Grafil, Inc., Morgan Crucible Company Plc, Morgan Industrial Carbon, Nippon Carbon Co Ltd., SGL Carbon, Showa Denko Carbon K.K, Showa Denko Carbon Inc., Superior Graphite Co., Toho Tenax Co., Ltd., Toho Tenax America, Inc., Tokai Carbon Co Ltd., Toray Industries, Inc., and Zoltek Companies, Inc. Market data and analytics are derived from primary and secondary research. Company profiles are mostly extracted from URL research and reported select online sources.
Carbon Fiber Reinforced Plastic Market Revenue is to be $27.98 Billion By 2024Amit M
The global carbon fiber reinforced plastic (CFRP) market size was USD 11.6 billion in 2015.Aerospace & defense application segment contributed significantly to shape the overall revenue owing to the high cost of aerospace grade CFRP.
"Description:
Driven by China’s rapidly developing economy in past few years, PVC industry in China has witnessed great development. Since 2005, China has been the largest manufacturer and consumer of PVC in the world, sharing about 30% global PVC output and consumption per year.
Different from most overseas countries, China adopts both calcium carbide method and ethylene method, since China has abundant calcium carbide resources. In 2008, PVC by calcium carbide method captures 70.74% of the total output in China.
After rapid expansion in the past five years, calcium carbide PVC has encountered great competition from ethylene PVC, especially after the price fall of crude oil since July 2008. How the dynamics of raw materials has affected PVC production in China? What is the production situation with these two methods in 2008 and 2009? What the trend of China’s PVC production and market in the next 10 years, especially for calcium carbide method, will be?
Though China is still a net importer of PVC, its import volume has reduced greatly after 2003. After the price slump of crude oil in 2008, has the import and export of PVC changed in 2008 and 2009?
Major driver for the increasing PVC output in China is the growing demand from downstream industries, whose development trend and PVC consumption in the next 5-10 years are provided with forecast in details in this report.
The report also covers following aspects of China’s PVC industry:
- Government regulations on PVC industry in China
- All PVC producers in China, especially for calcium carbide PVC, and their plan for future PVC projects
- Price change of PVC by the two methods in the past three years and its influencing factors
- Import & export analysis of PVC in the past 5 years in China
- Consumption pattern in different end use segments
- Resources analysis, covering coal, electricity and salt in China
- Comparison between calcium carbide method and ethylene method
- Ethylene production and general information of China’s petrochemical products, such as naphtha, gas oil, LPG and so on
- Investment opportunities in China’s PVC industry
"
Global and china carbon fiber and cfrp industry report, 2016 2020ResearchInChina
The global carbon fiber demand amounted to 59,000 tons in 2015. 22%, 62% and 16% of carbon fiber were applied to aerospace, industries, and sports & leisure respectively. Specifically, the demand from industries grew fastest, especially from automobiles, wind power, pressure vessels and other market segments. By 2020, 72% of the global carbon fiber will be used in industries, of which 23% will be adopted by automobiles and 21% by wind power.
Growing demand for high performance, light weight materials in automotive and aerospace industries is expected to remain a key driving factor for the global carbon fiber reinforced plastics (CFRP) market.
For More Information Visit - http://www.grandviewresearch.com/industry-analysis/carbon-fiber-market
This report analyzes the worldwide markets for Carbon & Graphite in US$ Million by the following Product Segments: Carbon & Graphite Electrodes (Carbon Electrodes, & Graphite Electrodes), and Other Carbon & Graphite Products (C&G Automotive Brushes, C&G Industrial Brushes & Contacts, C&G Brush Plates, C&G Fibers, C&G Products For Electrical Uses, C&G Products For Mechanical Uses, C&G Products For Aerospace Uses, and C&G Products For Other Uses). The report provides separate comprehensive analytics for the US, Canada, Japan, Europe, Asia-Pacific, Latin America, and Rest of World. Annual estimates and forecasts are provided for each region for the period 2007 through 2015. Also, a seven-year historic analysis is provided for these markets. The report profiles 206 companies including many key and niche players such as Cabot Corporation, Carbone Lorraine, Evonik Degussa GmbH, GrafTech International Ltd., HEG Ltd., Hexcel Corporation, Mitsubishi Rayon Co. Ltd., Grafil, Inc., Morgan Crucible Company Plc, Morgan Industrial Carbon, Nippon Carbon Co Ltd., SGL Carbon, Showa Denko Carbon K.K, Showa Denko Carbon Inc., Superior Graphite Co., Toho Tenax Co., Ltd., Toho Tenax America, Inc., Tokai Carbon Co Ltd., Toray Industries, Inc., and Zoltek Companies, Inc. Market data and analytics are derived from primary and secondary research. Company profiles are mostly extracted from URL research and reported select online sources.
Carbon Fiber Reinforced Plastic Market Revenue is to be $27.98 Billion By 2024Amit M
The global carbon fiber reinforced plastic (CFRP) market size was USD 11.6 billion in 2015.Aerospace & defense application segment contributed significantly to shape the overall revenue owing to the high cost of aerospace grade CFRP.
"Description:
Driven by China’s rapidly developing economy in past few years, PVC industry in China has witnessed great development. Since 2005, China has been the largest manufacturer and consumer of PVC in the world, sharing about 30% global PVC output and consumption per year.
Different from most overseas countries, China adopts both calcium carbide method and ethylene method, since China has abundant calcium carbide resources. In 2008, PVC by calcium carbide method captures 70.74% of the total output in China.
After rapid expansion in the past five years, calcium carbide PVC has encountered great competition from ethylene PVC, especially after the price fall of crude oil since July 2008. How the dynamics of raw materials has affected PVC production in China? What is the production situation with these two methods in 2008 and 2009? What the trend of China’s PVC production and market in the next 10 years, especially for calcium carbide method, will be?
Though China is still a net importer of PVC, its import volume has reduced greatly after 2003. After the price slump of crude oil in 2008, has the import and export of PVC changed in 2008 and 2009?
Major driver for the increasing PVC output in China is the growing demand from downstream industries, whose development trend and PVC consumption in the next 5-10 years are provided with forecast in details in this report.
The report also covers following aspects of China’s PVC industry:
- Government regulations on PVC industry in China
- All PVC producers in China, especially for calcium carbide PVC, and their plan for future PVC projects
- Price change of PVC by the two methods in the past three years and its influencing factors
- Import & export analysis of PVC in the past 5 years in China
- Consumption pattern in different end use segments
- Resources analysis, covering coal, electricity and salt in China
- Comparison between calcium carbide method and ethylene method
- Ethylene production and general information of China’s petrochemical products, such as naphtha, gas oil, LPG and so on
- Investment opportunities in China’s PVC industry
"
Sejarah Kerajaan Majapahit. Materi sejarah wajib untuk kelas 10 dan materi sejarah peminatan untuk kelas 11.
Majapahit mempunyai Raja yang terkenal bernama Hayam Wuruk dan Patihnya bernama Gajah Mada.
More than nine years ago, 1E became the first company to address the issue of energy waste caused by leaving PCs on overnight and essentially created the global market for IT power management. Collectively, US organizations waste $ 2.8 billion every year powering 108 million unused PCs. In 2009, these unused PCs are expected to emit approximately 20 million tons of carbon dioxide emissions - roughly equivalent to the impact of 4 million cars...
THIS DOCUMENT DESCRIBES THE CHALLENGES ENCOUNTERED WHEN TRYING TO REPRESENTIVELY REPORT COST AND CARBON SAVINGS ACROSS GEOGRAPHICAL BOUNDARIES AND HOW NIGHTWATCHMAN 6 ADDRESSES THEM.
Sejarah Kerajaan Majapahit. Materi sejarah wajib untuk kelas 10 dan materi sejarah peminatan untuk kelas 11.
Majapahit mempunyai Raja yang terkenal bernama Hayam Wuruk dan Patihnya bernama Gajah Mada.
More than nine years ago, 1E became the first company to address the issue of energy waste caused by leaving PCs on overnight and essentially created the global market for IT power management. Collectively, US organizations waste $ 2.8 billion every year powering 108 million unused PCs. In 2009, these unused PCs are expected to emit approximately 20 million tons of carbon dioxide emissions - roughly equivalent to the impact of 4 million cars...
THIS DOCUMENT DESCRIBES THE CHALLENGES ENCOUNTERED WHEN TRYING TO REPRESENTIVELY REPORT COST AND CARBON SAVINGS ACROSS GEOGRAPHICAL BOUNDARIES AND HOW NIGHTWATCHMAN 6 ADDRESSES THEM.
Carbon Nanotubes: Technologies and Global MarketsReportLinker.com
THIS REPORT:Provides an overview of the global market for carbon nanotubes (CNTs)Offers current global market data about CNTs and detailed forecasts through 2014 Discusses the market in terms of commercial sectors and applications for CNTs including composites, electronics, energy and other categories Gives an historical context for the industry and discusses the latest technological breakthroughsHighlights unique properties of CNTs, and the different features and challenges of each Profiles important companies.
Nanotechnologies are a hot topic for investors. Our presentation shows opportunities. Environment, Energy, Advanced Materials and many more fileds can benefit from revolutionary nanosolutions.
Industrial electronics global trends, estimates and forecasts, 2011-2018Research Hub
Global Market Watch:
Primarily supported by application sectors:- semiconductor capital equipment, test and measuring (T&M) instruments, automation systems and process control instrumentation -- the Industrial Electronics market to witness a value of US$321 billion by 2018
(May 29th, 2024) Advancements in Intravital Microscopy- Insights for Preclini...Scintica Instrumentation
Intravital microscopy (IVM) is a powerful tool utilized to study cellular behavior over time and space in vivo. Much of our understanding of cell biology has been accomplished using various in vitro and ex vivo methods; however, these studies do not necessarily reflect the natural dynamics of biological processes. Unlike traditional cell culture or fixed tissue imaging, IVM allows for the ultra-fast high-resolution imaging of cellular processes over time and space and were studied in its natural environment. Real-time visualization of biological processes in the context of an intact organism helps maintain physiological relevance and provide insights into the progression of disease, response to treatments or developmental processes.
In this webinar we give an overview of advanced applications of the IVM system in preclinical research. IVIM technology is a provider of all-in-one intravital microscopy systems and solutions optimized for in vivo imaging of live animal models at sub-micron resolution. The system’s unique features and user-friendly software enables researchers to probe fast dynamic biological processes such as immune cell tracking, cell-cell interaction as well as vascularization and tumor metastasis with exceptional detail. This webinar will also give an overview of IVM being utilized in drug development, offering a view into the intricate interaction between drugs/nanoparticles and tissues in vivo and allows for the evaluation of therapeutic intervention in a variety of tissues and organs. This interdisciplinary collaboration continues to drive the advancements of novel therapeutic strategies.
Cancer cell metabolism: special Reference to Lactate PathwayAADYARAJPANDEY1
Normal Cell Metabolism:
Cellular respiration describes the series of steps that cells use to break down sugar and other chemicals to get the energy we need to function.
Energy is stored in the bonds of glucose and when glucose is broken down, much of that energy is released.
Cell utilize energy in the form of ATP.
The first step of respiration is called glycolysis. In a series of steps, glycolysis breaks glucose into two smaller molecules - a chemical called pyruvate. A small amount of ATP is formed during this process.
Most healthy cells continue the breakdown in a second process, called the Kreb's cycle. The Kreb's cycle allows cells to “burn” the pyruvates made in glycolysis to get more ATP.
The last step in the breakdown of glucose is called oxidative phosphorylation (Ox-Phos).
It takes place in specialized cell structures called mitochondria. This process produces a large amount of ATP. Importantly, cells need oxygen to complete oxidative phosphorylation.
If a cell completes only glycolysis, only 2 molecules of ATP are made per glucose. However, if the cell completes the entire respiration process (glycolysis - Kreb's - oxidative phosphorylation), about 36 molecules of ATP are created, giving it much more energy to use.
IN CANCER CELL:
Unlike healthy cells that "burn" the entire molecule of sugar to capture a large amount of energy as ATP, cancer cells are wasteful.
Cancer cells only partially break down sugar molecules. They overuse the first step of respiration, glycolysis. They frequently do not complete the second step, oxidative phosphorylation.
This results in only 2 molecules of ATP per each glucose molecule instead of the 36 or so ATPs healthy cells gain. As a result, cancer cells need to use a lot more sugar molecules to get enough energy to survive.
Unlike healthy cells that "burn" the entire molecule of sugar to capture a large amount of energy as ATP, cancer cells are wasteful.
Cancer cells only partially break down sugar molecules. They overuse the first step of respiration, glycolysis. They frequently do not complete the second step, oxidative phosphorylation.
This results in only 2 molecules of ATP per each glucose molecule instead of the 36 or so ATPs healthy cells gain. As a result, cancer cells need to use a lot more sugar molecules to get enough energy to survive.
introduction to WARBERG PHENOMENA:
WARBURG EFFECT Usually, cancer cells are highly glycolytic (glucose addiction) and take up more glucose than do normal cells from outside.
Otto Heinrich Warburg (; 8 October 1883 – 1 August 1970) In 1931 was awarded the Nobel Prize in Physiology for his "discovery of the nature and mode of action of the respiratory enzyme.
WARNBURG EFFECT : cancer cells under aerobic (well-oxygenated) conditions to metabolize glucose to lactate (aerobic glycolysis) is known as the Warburg effect. Warburg made the observation that tumor slices consume glucose and secrete lactate at a higher rate than normal tissues.
Professional air quality monitoring systems provide immediate, on-site data for analysis, compliance, and decision-making.
Monitor common gases, weather parameters, particulates.
This pdf is about the Schizophrenia.
For more details visit on YouTube; @SELF-EXPLANATORY;
https://www.youtube.com/channel/UCAiarMZDNhe1A3Rnpr_WkzA/videos
Thanks...!
Multi-source connectivity as the driver of solar wind variability in the heli...Sérgio Sacani
The ambient solar wind that flls the heliosphere originates from multiple
sources in the solar corona and is highly structured. It is often described
as high-speed, relatively homogeneous, plasma streams from coronal
holes and slow-speed, highly variable, streams whose source regions are
under debate. A key goal of ESA/NASA’s Solar Orbiter mission is to identify
solar wind sources and understand what drives the complexity seen in the
heliosphere. By combining magnetic feld modelling and spectroscopic
techniques with high-resolution observations and measurements, we show
that the solar wind variability detected in situ by Solar Orbiter in March
2022 is driven by spatio-temporal changes in the magnetic connectivity to
multiple sources in the solar atmosphere. The magnetic feld footpoints
connected to the spacecraft moved from the boundaries of a coronal hole
to one active region (12961) and then across to another region (12957). This
is refected in the in situ measurements, which show the transition from fast
to highly Alfvénic then to slow solar wind that is disrupted by the arrival of
a coronal mass ejection. Our results describe solar wind variability at 0.5 au
but are applicable to near-Earth observatories.
Comparing Evolved Extractive Text Summary Scores of Bidirectional Encoder Rep...University of Maribor
Slides from:
11th International Conference on Electrical, Electronics and Computer Engineering (IcETRAN), Niš, 3-6 June 2024
Track: Artificial Intelligence
https://www.etran.rs/2024/en/home-english/
This presentation explores a brief idea about the structural and functional attributes of nucleotides, the structure and function of genetic materials along with the impact of UV rays and pH upon them.
Nucleic Acid-its structural and functional complexity.
2015 deep research report on global carbon nanotube (cnt) industry
1. YRH: 2015 Deep Research Report on Global Carbon Nanotube (CNT) Industry
Overview, Size, Share, Analysis, Technology Developments, Development
Status, Trends, Structure, Production Value and Forecast Research Report
Summary
2015 Deep Research Report on Global Carbon Nanotube (CNT) Industry is a professional and
deep research report in this field.
For overview analysis, the report introduces Carbon Nanotube (CNT) basic information
including definition, classification, application, industry chain structure, industry overview,
policy analysis, and news analysis, etc.
For international and China market analysis, the report analyzes Carbon Nanotube (CNT)
markets in China and other countries or regions (such as US, Europe, Japan, etc) by presenting
research on global products of different types and applications, developments and trends of
market, technology, competitive landscape, and leading suppliers’ and countries’ 2009-2014
capacity, production, cost, price, profit, production value, and gross margin. For leading
suppliers, related information is listed as products, customers, application, capacity, market
position, and company contact information, etc. 2015-2020 forecast on capacity, production,
cost, price, profit, production value, and gross margin for these markets are also included.
For technical data and manufacturing plants analysis, the report analyzes Carbon Nanotube
(CNT) leading suppliers on capacity, commercial production date, manufacturing plants
distribution, R&D status, technology sources, and raw materials sources.
For industry chain analysis, the report covers Carbon Nanotube (CNT) upstream raw
materials, equipment, downstream client survey, marketing channels, industry development
trend and proposals, which more specifically include valuable information on Carbon
Nanotube (CNT) key applications and consumption, key regions and consumption, key global
distributors , major raw materials suppliers and contact information, major manufacturing
equipment suppliers and contact information, major suppliers and contact Information, key
consumers and contact information, and supply chain relationship analysis.
This report also presents Carbon Nanotube (CNT) product specification, manufacturing
process, and product cost structure etc. Production is separated by regions, technology and
applications. In the end, the report includes Carbon Nanotube (CNT) new project SWOT
2. analysis, investment feasibility analysis, investment return analysis, and development trend
analysis.
In conclusion, it is a deep research report on global Carbon Nanotube (CNT) industry. Here,
we express our thanks for the support and assistance from Carbon Nanotube (CNT) industry
chain related technical experts and marketing engineers during research team’s survey and
interviews.
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global-carbon-nanotube-cnt-industry
Table of contents
Chapter One Carbon Nanotube (CNT) Industry Overview 1
1.1 Carbon Nanotube (CNT) Definition 1
1.2 Carbon Nanotube (CNT) Classification and Application 2
1.3 Carbon Nanotube (CNT) Industry Chain Structure 8
1.4 Carbon Nanotube (CNT) Industry Overview 8
1.5 Carbon Nanotube (CNT) Industry Policy Analysis 9
1.6 Carbon Nanotube (CNT) Industry News Analysis 9
Chapter Two Carbon Nanotube (CNT) International and China Market Analysis 12
2.1 Carbon Nanotube (CNT) Industry International Market Analysis 12
2.1.1 Carbon Nanotube (CNT) International Market Development History 12
2.1.2 Carbon Nanotube (CNT) Product and Technology Developments 13
2.1.3 Carbon Nanotube (CNT) Competitive Landscape Analysis 14
2.1.4 Carbon Nanotube (CNT) International Key Countries Development Status 15
2.1.5 Carbon Nanotube (CNT) International Market Development Trend 16
2.2 Carbon Nanotube (CNT) Industry China Market Analysis 16
2.2.1 Carbon Nanotube (CNT) China Market Development History 16
2.2.2 Carbon Nanotube (CNT) Product and Technology Developments 17
2.2.3 Carbon Nanotube (CNT) Competitive Landscape Analysis 18
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2.2.4 Carbon Nanotube (CNT) China Key Regions Development Status 19
2.2.5 Carbon Nanotube (CNT) China Market Development Trend 19
3. 2.3 Carbon Nanotube (CNT) International and China Market Comparison Analysis 20
Chapter Three Carbon Nanotube (CNT) Technical Data and Manufacturing Plants Analysis 21
3.1 2014 Global Key Manufacturers Carbon Nanotube (CNT) Capacity and Commercial
Production Date 21
3.2 2014 Global Key Manufacturers Carbon Nanotube (CNT) Manufacturing Plants
Distribution 21
3.3 2014 Global Key Manufacturers Carbon Nanotube (CNT) R&D Status and Technology
Source 22
3.4 2014 Global Key Manufacturers Carbon Nanotube (CNT) Raw Materials Sources Analysis
23
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Chapter Four Carbon Nanotube (CNT) Production by Regions By Technology By Applications
25
4.1 2009-2015 Carbon Nanotube (CNT) Production by Regions 25
4.2 2009-2015 Carbon Nanotube (CNT) Production by Technology 29
4.3 2009-2015 Carbon Nanotube (CNT) Production by Applications 30
4.4 2009-2015 Carbon Nanotube (CNT) Price by key Manufacturers 31
4.5 2009-2015 EU Carbon Nanotube (CNT) Capacity Production Price Cost Production Value
Analysis 32
4.6 2009-2015 Japan Carbon Nanotube (CNT) Capacity Production Price Cost Production Value
Analysis 32
4.7 2009-2015 China Carbon Nanotube (CNT) Capacity Production Price Cost Production Value
Analysis 33
4.8 2009-2015 EU Carbon Nanotube (CNT) Supply Import Export Consumption 33
4.9 2009-2015 Japan Carbon Nanotube (CNT) Supply Import Export Consumption 34
4.10 2009-2015 China Carbon Nanotube (CNT) Supply Import Export Consumption 34
Chapter Five Carbon Nanotube (CNT) Manufacturing Process and Cost Structure 35
5.1 Carbon Nanotube (CNT) Product Specifications 35
5.2 Carbon Nanotube (CNT) Manufacturing Process Analysis 37
5.3 Carbon Nanotube (CNT) Cost Structure Analysis 43
5.4 Carbon Nanotube (CNT) Price Cost Gross Analysis 44
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4. Chapter Six 2009-2015 Carbon Nanotube Productions Supply Sales Market Status and
Forecast 46
6.1 2009-2015 Carbon Nanotube Capacity Production Overview 46
6.2 2009-2015 Carbon Nanotube Production Market Share Analysis 51
6.3 2009-2015 Carbon Nanotube Sales Overview 53
6.4 2009-2015 Carbon Nanotube Supply Sales and Shortage 54
6.5 2009-2015 Carbon Nanotube Import Export Consumption 54
6.6 2009-2015 Carbon Nanotube Cost Price Production Value Gross Margin 55
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Chapter Seven Carbon Nanotube (CNT) Key Manufacturers Analysis 58
7.1 Showa Denko K.K.( Japan) 58
7.1.1 Company Profile 58
7.1.2 Product Picture and Specification 60
7.1.3 Capacity Production Price Cost Production Value 61
7.1.4 Contact Information 62
7.2 Nanocyl SA(BELGIUM) 63
7.2.1 Company Profile 63
7.2.2 Product Picture and Specification 64
7.2.3 Capacity Production Price Cost Production Value 66
7.2.4 Contact Information 68
7.3 Arkema(France) 68
7.3.1 Company Profile 68
7.3.2 Product Picture and Specification 71
7.3.3 Capacity Production Price Cost Production Value 71
7.3.4 Contact Information 72
7.4 FutureCarbon/Bayer(Germany) 73
7.4.1 Company Profile 73
7.4.2 Product Picture and Specification 74
7.4.3 Capacity Production Price Cost Production Value 76
7.4.4 Contact Information 77
7.5 Hyperion Catalysis(USA) 77
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5. 7.5.1 Company Profile 77
7.5.2 Product Picture and Specification 78
7.5.3 Capacity Production Price Cost Production Value 78
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7.5.4 Contact Information 80
7.6 Nanocomp(USA) 80
7.6.1 Company Profile 80
7.6.2 Product Picture and Specification 81
7.6.3 Capacity Production Price Cost Production Value 81
7.6.4 Contact Information 82
7.7 ILJIN Nanotech(South Korea) 83
7.7.1 Company Profile 83
7.7.2 Product Picture and Specification 84
7.7.3 Capacity Production Price Cost Production Value 84
7.7.4 Contact Information 86
7.8 NanoCarbon Technologies(USA) 86
7.8.1 Company Profile 86
7.8.2 Product Picture and Specification 86
7.8.3 Capacity Production Price Cost Production Value 87
7.8.4 Contact Information 88
7.9 SouthWest NanoTechnologies(USA) 88
7.9.1 Company Profile 89
7.9.2 Product Picture and Specification 89
7.9.3 Capacity Production Price Cost Production Value 90
7.9.4 Contact Information 92
7.10 Toray(Japan) 92
7.10.1 Company Profile 92
7.10.2 Product Picture and Specification 93
7.10.3 Capacity Production Price Cost Production Value 93
7.10.4 Contact Information 94
7.11 Unidym(USA) 95
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6. 7.11.1 Company Profile 95
7.11.2 Product Picture and Specification 97
7.11.3 Capacity Production Price Cost Production Value 98
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7.11.4 Contact Information 99
7.12 Timesnano(China) 99
7.12.1 Company Profile 99
7.12.2 Product Picture and Specification 100
7.12.3 Capacity Production Price Cost Production Value 103
7.12.4 Contact Information 104
7.13 CNano Technology Ltd(China) 105
7.13.1 Company Profile 105
7.13.2 Product Picture and Specification 106
7.13.3 Capacity Production Price Cost Production Value 106
7.13.4 Contact Information 108
7.14 Shanghai kajet(China) 108
7.14.1 Company Profile 108
7.14.2 Product Picture and Specification 109
7.14.3 Capacity Production Price Cost Production Value 110
7.14.4 Contact Information 111
Chapter Eight Up and Down Stream Industry Analysis 112
8.1 Upstream Raw Materials Suppliers and Price Analysis 112
8.2 Processing Equipments and Suppliers Analysis 113
8.3 Key Applications and Consumption Analysis 114
8.4 Key Regions and Consumption Analysis 115
Chapter Nine Carbon Nanotube (CNT) Marketing Channels Analysis 116
9.1 Carbon Nanotube (CNT) Marketing Channels Status 116
9.2 Carbon Nanotube (CNT) Marketing Channels Characteristic 116
9.3 Carbon Nanotube (CNT) Marketing Channels Development Trend 117
9.4 Carbon Nanotube (CNT) Global Key Distributors Analysis 118
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7. Chapter Ten 2014-2020 Carbon Nanotube Productions Supply Sales Market Status and
Forecast 119
10.1 2014-2020 Carbon Nanotube Capacity Production Overview 119
10.2 2015-2020 Carbon Nanotube Production Market Share Analysis 121
10.3 2014-2020 Carbon Nanotube Sales Overview 123
10.4 2014-2020 Carbon Nanotube Supply Sales and Shortage 124
10.5 2014-2020 Carbon Nanotube Import Export Consumption 124
10.6 2014-2020 Carbon Nanotube Cost Price Production Value Gross Margin 125
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Chapter Eleven Carbon Nanotube (CNT) Supply Chain Relationship Analysis 126
11.1 Raw Materials Major Suppliers and Contact Information 126
11.2 Manufacturing Equipments Suppliers and Contact Information 127
11.3 Carbon Nanotube (CNT) Major Suppliers and Contact Information 128
11.4 Key Consumers and Their Contact Information 129
11.5 Carbon Nanotube (CNT) Supply Chain Relationship Analysis 129
Chapter Twelve Carbon Nanotube (CNT) New Project Investment Feasibility Analysis 131
12.1 Carbon Nanotube (CNT) Project SWOT Analysis 131
12.2 Carbon Nanotube (CNT) New Project Investment Feasibility Analysis 132
12.2.1 Project Name 132
12.2.2 Investment Budget 132
Chapter Thirteen Global Carbon Nanotube (CNT) Industry Research Conclusions 133Tables
and Figures
Figure Carbon Nanotube (CNT) product picture 1
Figure Carbon Nanotubes Structure and Bonding 2
Table Carbon Nanotubes Physical Properties 2
Table Carbon Nanotube (CNT) Classification 2
Figure Single (SWNT) and Multi-wall (MWNT) Nanotubes 3
Figure Single-walled Structure Diagram 4
Figure Stable Nanobud Structure 5
Figure SEM series of Graphenated CNTs with varying foliate density 5
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8. Figure Taxonomy for Carbon Nanotubes 7
Figure Carbon Nanotube (CNT) Industry Chain Structure 8
Table Carbon Nanotube (CNT) Industry Policy List 9
Figure Carbon Nanotube (CNT) Product Technology Developments 13
Figure 2014 Global Major Manufacturers Carbon Nanotube (CNT) Production Market Share 14
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Figure 2014 Global Major Countries Carbon Nanotube (CNT) Production Market Share 15
Figure 2014-2020 Global Carbon Nanotube (CNT) Capacity Production 16
Figure 2014 China Major Manufacturers Carbon Nanotube (CNT) Production Market Share 18
Figure 2014 China Key Regions Carbon Nanotube (CNT) Production Market Share 19
Table Carbon Nanotube International Market Development Trend 19
Figure Carbon Nanotube (CNT) International and China Market Comparison 20
Table 2014 Global and China Key Manufacturers Carbon Nanotube (CNT) Product Line
Capacity and Commercial Production Date 21
Table 2014 Manufacturing Base (Factory) Global Regional Distribution 21
Table 2014 Global and China Key Manufacturers Carbon Nanotube (CNT) R&D Status and
Technology Sources List 22
Table 2014 Global and China Key Manufacturers Carbon Nanotube (CNT) Raw Materials
Sources List 23
Table 2009-2015 Carbon Nanotube (CNT) Production (Tonne) by Regions 25
Figure 2009 Global Carbon Nanotube (CNT) Production market share by regions 25
Figure 2010 Global Carbon Nanotube (CNT) Production market share by regions 26
Figure 2011 Global Carbon Nanotube (CNT) Production market share by regions 26
Figure 2012 Global Carbon Nanotube (CNT) Production market share by regions 27
Figure 2013 Global Carbon Nanotube (CNT) Production market share by regions 27
Figure 2014 Global Carbon Nanotube (CNT) Production market share by regions 28
Figure 2015 Global Carbon Nanotube (CNT) Production market share by regions 28
Figure 2009 Carbon Nanotube (CNT) Production market share by Technology 29
Figure 2014 Global Carbon Nanotube (CNT) Production market share by Technology 29
Figure 2009 Carbon Nanotube (CNT) Production market share by Applications 30
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9. Figure 2014 Global Carbon Nanotube (CNT) Production market share by Applications 31
Table 2014 Carbon Nanotube (CNT) Price by key Manufacturers 31
Table EU Carbon Nanotube (CNT) Capacity Production Price Cost Production Value 32
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Table Japan Carbon Nanotube (CNT) Capacity Production Price Cost Production Value 32
Table China Carbon Nanotube (CNT) Capacity Production Price Cost Production Value 33
Table 2009-2015 EU Carbon Nanotube (CNT) Supply Import Export Consumption 33
Table 2009-2015 Japan Carbon Nanotube (CNT) Supply Import Export Consumption 34
Table 2009-2015 China Carbon Nanotube (CNT) Supply Import Export Consumption 34
Table NTP CNTs Conductive Paste New conductive agent for lithium battery 35
Table NTP Carbon Nanotube (CNT) Product Specifications List 35
Figure Baytubes Product Specifications 37
Table Carbon Nanotube (CNT) Manufacturing Process Analysis 37
Figure Traditional CNT film processes are complex 38
Table Comparison of Carbon Nanotube Production Methods 39
Figure Arc discharge Method for CNT 40
Figure Schematic of Laser Ablation Method for Carbon Nanotube Production 41
Figure Carbon Nanotube CVD production device by quartz tube furnace 43
Figure 2014 Carbon Nanotube (CNT) Cost Structure Analysis 44
Table Carbon Nanotube (CNT) Price Cost Gross Analysis 44
Table 2009-2015 Global Major Manufacturers Carbon Nanotube Capacity and Total Capacity
(Tonne)List 46
Table 2009-2015 Global Major Manufacturers Carbon Nanotube Capacity Market Share List
46
Table 2009-2015 Global Major Manufacturers Carbon Nanotube Production and Total
Production (Tonne)List 47
Table 2009-2015 Global Major Manufacturers Carbon Nanotube Production Market Share List
48
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Figure 2009-2015 Global Carbon Nanotube Capacity Production (Tonne)and Growth Rate 49
10. Table 2009-2015 China Major Manufacturers Carbon Nanotube Capacity and Total Capacity
(Tonne)List 49
Table 2009-2015 China Major Manufacturers Carbon Nanotube Capacity Market Share List 49
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Table 2009-2015 China Major Manufacturers Carbon Nanotube Production and Total
Production (Tonne)List 50
Table 2009-2015 China Major Manufacturers Carbon Nanotube Production Market Share List
50
Figure 2009-2015 China Carbon Nanotube Capacity Production (Tonne)and Growth Rate 50
Figure 2009 Global Major Manufacturers Carbon Nanotube Production Market Share 51
Figure 2014 Global Major Manufacturers Carbon Nanotube Production Market Share 51
Figure 2009 China Major Manufacturers Carbon Nanotube Production Market Share 52
Figure 2014 China Major Manufacturers Carbon Nanotube Production Market Share 52
Figure 2009-2015 Global Carbon Nanotube Sales (Tonne)and Growth Rate 53
Figure 2009-2015 China Carbon Nanotube Sales (Tonne)and Growth Rate 53
Table 2009-2015 Global Carbon Nanotube Supply Sales Shortage (Tonne)List 54
Table 2009-2015 China Carbon Nanotube Supply Sales Shortage (Tonne)List 54
Table 2009-2015 China Carbon Nanotube Production Import Export Consumption (Tonne)List
54
Table 2009-2015 Global Major Manufacturers Carbon Nanotube Gross Margin List 55
Table 2009-2015 Global Major Manufacturers Carbon Nanotube Production Value (Million $)
List 55
Table 2009-2015 Global Major Manufacturers Carbon Nanotube Production Value market
share List 56
Table 2009-2015 China Major Manufacturers Carbon Nanotube Production Value (Million $)
List 56
Table 2009-2015 China Major Manufacturers Carbon Nanotube Production Value market
share List 57
Table 2009-2015 Global Carbon Nanotube Production (Tonne) Price Cost Gross ($ /Tonne)
Production Value (Million $) Gross Margin List 57
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11. Production Value (Million $) Gross Margin List 57
Table Company information 58
Table Company History 59
Figure Showa Denko K.K. Product Picture and Specification 60
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Table Showa Denko K.K. Product VGCFTM Grade Specification 60
Figure Showa Denko K.K. Carbon Nanotube Product Picture 61
Table 2009-2015 Showa Denko K.K. Carbon Nanotube (CNT) Product Capacity Production
(Tonne) Price Cost (USD/kg) Production Value (Million USD) Gross Margin List 61
Figure 2009-2015 Showa Denko K.K. Carbon Nanotube (CNT) Product Capacity Production and
Growth Rate 62
Figure 2009-2015 Showa Denko K.K. Carbon Nanotube (CNT) Product Production Global
Market Share 62
Figure Nanocyl SA Product Picture and Specification 64
Figure Nanocyl SA Carbon Nanotube Product Specification 64
Figure Nanocyl SA Carbon Nanotube Product Picture 65
Figure Nanocyl SA Carbon Nanotube Product Specification 65
Source: Nanocyl SA, QYResearch Carbon Nanotube (CNT) Research Center, Mar 201Figure
Nanocyl SA Carbon Nanotube Product Picture 66
Figure Nanocyl SA Carbon Nanotube Product Specification 66
Table 2009-2015 Nanocyl SA Carbon Nanotube (CNT) Product Capacity Production (Tonne)
Price Cost (USD/kg) Production Value (Million USD) Gross Margin List 66
Figure 2009-2015 Nanocyl SA Carbon Nanotube (CNT) Product Capacity Production and
Growth Rate 67
Figure 2009-2015 Nanocyl SA Carbon Nanotube (CNT) Product Production Global Market
Share 67
Figure Arkema Product Picture and Specification 71
Table 2009-2015 Arkema Carbon Nanotube (CNT) Product Capacity Production (Tonne) Price
Cost (USD/kg) Production Value (Million USD) Gross Margin List 71
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Figure 2009-2015 Arkema Carbon Nanotube (CNT) Product Capacity Production and Growth
Rate 72
12. Figure 2009-2015 Arkema Carbon Nanotube (CNT) Product Production Global Market Share
72
Figure FutureCarbon/Bayer MaterialScience AG Carbon Nanotube Product Picture 74
Figure FutureCarbon/Bayer MaterialScience AG Carbon Nanotube Product Picture 75
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Figure FutureCarbon/Bayer MaterialScience AG Carbon Nanotube Product Specification 75
Table 2009-2015 FutureCarbon/Bayer Carbon Nanotube (CNT) Product Capacity Production
(Tonne) Price Cost (USD/kg) Production Value (Million USD) Gross Margin List 76
Figure 2009-2015 FutureCarbon/Bayer Carbon Nanotube (CNT) Product Capacity Production
and Growth Rate 76
Figure 2009-2015 FutureCarbon/Bayer Carbon Nanotube (CNT) Product Production Global
Market Share 77
Figure Hyperion Catalysis Product Picture and Specification 78
Table 2009-2015 Hyperion Catalysis Carbon Nanotube (CNT) Product Capacity Production
(Tonne) Price Cost (USD/kg) Production Value (Million USD) Gross Margin List 78
Figure 2009-2015 Hyperion Catalysis Carbon Nanotube (CNT) Product Capacity Production
and Growth Rate 79
Figure 2009-2015 Hyperion Catalysis Carbon Nanotube (CNT) Product Production Global
Market Share 79
Figure Nanocomp Product Picture and Specification 81
Table 2009-2015 Nanocomp Carbon Nanotube (CNT) Product Capacity Production (Tonne)
Price Cost (USD/kg) Production Value (Million USD) Gross Margin List 81
Figure 2009-2015 Nanocomp Carbon Nanotube (CNT) Product Capacity Production and
Growth Rate 82
Figure 2009-2015 Nanocomp Carbon Nanotube (CNT) Product Production Global Market
Share 82
Figure ILJIN Nanotech Product Picture and Specification 84
Table 2009-2015 ILJIN Nanotech Carbon Nanotube (CNT) Product Capacity Production (Tonne)
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Price Cost (USD/kg) Production Value (Million USD) Gross Margin List 84
13. Figure 2009-2015 ILJIN Nanotech Carbon Nanotube (CNT) Product Capacity Production and
Growth Rate 85
Figure 2009-2015 ILJIN Nanotech Carbon Nanotube (CNT) Product Production Global Market
Share 85
Figure NanoCarbon Technologies Product Picture and Specification 86
Table 2009-2015 NanoCarbon Technologies Carbon Nanotube (CNT) Product Capacity Get Full
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Production (Tonne) Price Cost (USD/kg) Production Value (Million USD) Gross Margin List 87
Figure 2009-2015 NanoCarbon Technologies Carbon Nanotube (CNT) Product Capacity
Production and Growth Rate 87
Figure 2009-2015 NanoCarbon Technologies Carbon Nanotube (CNT) Product Production
Global Market Share 88
Figure SouthWest NanoTechnologies SG65i Product Picture and Specification 89
Figure SG65i Specification 90
Table 2009-2015 SouthWest NanoTechnologies Carbon Nanotube (CNT) Product Capacity
Production (Tonne) Price Cost (USD/kg) Production Value (Million USD) Gross Margin List 90
Figure 2009-2015 SouthWest NanoTechnologies Carbon Nanotube (CNT) Product Capacity
Production and Growth Rate 91
Figure 2009-2015 SouthWest NanoTechnologies Carbon Nanotube (CNT) Product Production
Global Market Share 92
Figure Toray Product Picture and Specification 93
Table 2009-2015 Toray Carbon Nanotube (CNT) Product Capacity Production (Tonne) Price
Cost (USD/kg) Production Value (Million USD) Gross Margin List 93
Figure 2009-2015 Toray Carbon Nanotube (CNT) Product Capacity Production and Growth
Rate 94
Figure 2009-2015 Toray Carbon Nanotube (CNT) Product Production Global Market Share 94
Figure Unidym, LTD Product Picture 97
Figure Unidym, LTD Product Picture 97
Table 2009-2015 Unidym Carbon Nanotube (CNT) Product Capacity Production (Tonne) Price
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Cost (USD/kg) Production Value (Million USD) Gross Margin List 98
14. Figure 2009-2015 Unidym Carbon Nanotube (CNT) Product Capacity Production and Growth
Rate 98
Figure 2009-2015 Unidym Carbon Nanotube (CNT) Product Production Global Market Share
99
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Figure Timesnano, LTD Product Picture 100
Figure Timesnano , LTD Product Specification 101
Figure Timesnano, LTD Product Picture 101
Figure Timesnano , LTD Product Specification 102
Figure Timesnano, LTD Product Picture 102
Figure Timesnano , LTD Product Specification 103
Table 2009-2015 Timesnano Carbon Nanotube (CNT) Product Capacity Production (Tonne)
Price Cost (USD/kg) Production Value (Million USD) Gross Margin List 103
Figure 2009-2015 Timesnano Carbon Nanotube (CNT) Product Capacity Production and
Growth Rate 104
Figure 2009-2015 Timesnano Carbon Nanotube (CNT) Product Production Global Market
Share 104
Figure CNano Technology Ltd Product Picture 106
Table 2009-2015 CNano Technology Ltd Carbon Nanotube (CNT) Product Capacity Production
(Tonne) Price Cost (USD/kg) Production Value (Million USD) Gross Margin List 106
Figure 2009-2015 CNano Technology Ltd Carbon Nanotube (CNT) Product Capacity Production
and Growth Rate 107
Figure 2009-2015 CNano Technology Ltd Carbon Nanotube (CNT) Product Production Global
Market Share 107
Figure Shanghai kajet Product Picture 109
Table Shanghai kajet Product Specification 109
Table 2009-2015 Shanghai kajet Carbon Nanotube (CNT) Product Capacity Production (Tonne)
Price Cost (USD/kg) Production Value (Million USD) Gross Margin List 110
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Figure 2009-2015 Shanghai kajet Carbon Nanotube (CNT) Product Capacity Production and
Growth Rate 110
15. Figure 2009-2015 Shanghai kajet Carbon Nanotube (CNT) Product Production Global Market
Share 111
Figure Upstream Equipments 113
Figure Carbon Nanotube Maket by Industry 114
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Figure Summary of CNTs-Enabled Applications 115
Table Key Regions and Consumption Analysis 115
Figure Carbon Nanotube (CNT) Marketing Channels Status 116
Figure the Proportion of Sales Channels 117
Table Carbon Nanotube (CNT) Global Key Distributors Analysis 118
Figure 2014-2020 Global Carbon Nanotube Capacity Production (Tonne)and Growth Rate 119
Table 2014-2020 Global Carbon Nanotube Capacity Utilization Rate List 119
Figure 2014-2020 China Carbon Nanotube Capacity Production (Tonne)and Growth Rate 120
Table 2014-2020 China Carbon Nanotube Capacity Utilization Rate List 120
Figure 2015 Global Major Manufacturers Carbon Nanotube Production Market Share 121
Figure 2020 Global Major Manufacturers Carbon Nanotube Production Market Share 121
Figure 2015 China Major Manufacturers Carbon Nanotube Production Market Share 122
Figure 2020 China Major Manufacturers Carbon Nanotube Production Market Share 122
Figure 2014-2020 Global Carbon Nanotube Sales (Tonne)and Growth Rate 123
Figure 2014-2020 China Carbon Nanotube Sales (Tonne) and Growth Rate 123
Table 2014-2020 Global Carbon Nanotube Supply Sales Shortage (Tonne)List 124
Table 2014-2020 China Carbon Nanotube Supply Sales Shortage (Tonne)List 124
Table 2014-2020 China Carbon Nanotube Production Import Export Consumption (Tonne)List
124
Table 2014-2020 Global Carbon Nanotube Production (Tonne) Price Cost Gross ($ / Tonne)
Production Value (Million $) Gross Margin List 125
Table 2014-2020 China Carbon Nanotube Production (Tonne) Price Cost Gross ($ / Tonne)
Production Value (Million $) Gross Margin List 125
Table Raw Materials Major Suppliers and Contact Information 126
Table Manufacturing Equipments Suppliers and Contact Information 127
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16. Table Carbon Nanotube (CNT) Major Suppliers and Contact Information 128
Table Key Consumers and Their Contact Information 129
Figure Carbon Nanotube (CNT) Supply Chain Relationship Analysis 129
Table Carbon Nanotube (CNT) Project SWOT Analysis 131
Table Citric Acid Anhydrous Project Investment Anlysis 132
Table Carbon Nanotube (CNT) Project Investment Feasibility Analysis 132
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