The "The Global Market for Carbon Nanomaterials 2020: Carbon Nanotubes, Graphene, Fullerenes, Carbon and Graphene Quantum Dots and Nanodiamonds" report has been added to ResearchAndMarkets.com's offering.
Carbon-based nanomaterials include fullerenes, carbon nanotubes (CNTs), graphene and its derivatives, graphene oxide, nanodiamonds, and carbon-based quantum dots (CQDs). Due to their unique structural dimensions and excellent mechanical, electrical, thermal, optical and chemical properties, carbon nanomaterials have gained great interest in a wide range of industrial market.
Carbon nanotubes (CNTs) and graphene are the strongest, lightest and most conductive fibres known to man, with a performance-per-weight greater than any other material. In direct competition in a number of markets, they are complementary in others.
Once the most promising of all nanomaterials, MWCNTs face stiff competition in conductive applications from graphene and other 2D materials and in mechanically enhanced composites from nanocellulose. Several major producers have closed their MWCNT capacities, but applications continue to come to market and LG Chem has established a large-scale production facility. Super-aligned CNT arrays, films and yarns have found applications in consumer electronics, batteries, polymer composites, aerospace, sensors, heaters, filters and biomedicine.
Large-scale industrial production of single-walled carbon nanotubes (SWCNTs) has been initiated, promising new market opportunities in transparent conductive films, conductive materials, transistors, sensors and memory devices. Again, a number of producers have ceased production, but those left are finding increased demand for their materials. SWCNTs are regarded as one of the most promising candidates to utilized as building blocks in next-generation electronics.
Two-dimensional(2D) materials are currently one of the most active areas of nanomaterials research and offer a huge opportunity for both fundamental studies and practical applications, including superfast, low-power, flexible and wearable electronics, sensors, photonics and electrochemical energy storage devices that will have an immense impact on our society.
Report contents include:
- Carbon nanotubes, fullerene, nanodiamond and graphene products.
- Assessment of carbon nanomaterials market including production volumes, competitive landscape, commercial prospects, applications, demand by market and region, commercialization timelines, prices and producer profiles.
- Unique assessment tools for the carbon nanomaterials market, end-user applications, economic impact, addressable markets and market challenges to provide the complete picture of where the real opportunities in carbon nanomaterials are.
- Company profiles of carbon nanotubes, graphene, 2D materials, fullerenes, carbon quantum dots and nanodiamonds producers and product developers, including products, target markets and contact details
- Market assessment of other 2D materials.
- Assessment of carbon nanomaterials by market including applications, key benefits, market megatrends, market drivers for, technology drawbacks, competing materials, potential consumption of to 2030 and main players.
- In depth-assessment of carbon nanomaterials producer and distributor pricing in 2020.
- Global market for carbon nanomaterials in tons, by sector, historical and forecast to 2030.
- Full list of technology collaborations, strategic partnerships, and M&As in the global carbon nanomaterials market.
- In-depth profiles of carbon nanomaterials producers including products, production capacities, manufacturing methods, collaborations, licensing, customers and target markets.
- Detailed forecasts for key growth areas, opportunities and demand.
Key Topics Covered:
1 EXECUTIVE SUMMARY
2 OVERVIEW OF GRAPHENE.
2.1 History
2.2 Types of graphene
2.3 Properties.
2.4 Graphene Quantum Dots
2.4.1 Synthesis
2.4.2 Applications.
2.4.2.1 Optoelectronics, electronics and photonics
2.4.2.2 Energy
2.4.2.3 Biomedicine and healthcare
2.4.2.4 Other
2.4.3 Pricing.
2.4.4 Producers.
3 OVERVIEW OF CARBON NANOTUBES.
3.1 Properties
3.2 Multi-walled nanotubes (MWCNT)
3.2.1 Properties.
3.2.2 Applications.
3.3 Single-wall carbon nanotubes (SWCNT).
3.3.1 Properties.
3.3.2 Applications.
3.3.3 Comparison between MWCNTs and SWCNTs
3.3.4 Double-walled carbon nanotubes (DWNTs)
3.3.4.1 Properties.
3.3.4.2 Applications.
3.3.5 Few-walled carbon nanotubes (FWNTs).
3.3.5.1 Properties.
3.3.5.2 Applications.
3.4 Carbon Nanohorns (CNHs).
3.4.1 Properties.
3.4.2 Applications.
3.5 Carbon Onions
3.5.1 Properties.
3.5.2 Applications.
3.6 Boron Nitride nanotubes (BNNTs)
3.6.1 Properties.
3.6.2 Applications.
4 OVERVIEW OF FULLERENES
4.1 Properties
4.2 Applications
5 OVERVIEW OF NANODIAMONDS.
5.1 Production methods.
5.1.1 Fluorescent nanodiamonds (FNDs)
5.2 Applications
6 GRAPHENE PRODUCTION.
7 CARBON NANOTUBE PRODUCTION
8 GRAPHENE PATENTS AND PUBLICATIONS.
9 CARBON NANOTUBES PATENTS.
10 GRAPHENE PRODUCTION.
10.1 Commercial production capacities.
10.2 Graphene oxide and reduced Graphene Oxide production capacities
10.2.1 By producer.
10.2.2 By region
10.3 Graphene nanoplatelets production capacities
10.3.1 By producer.
10.3.2 Production capacity by region
10.4 CVD graphene film.
10.4.1 By producer.
10.5 Graphene production issues and challenges
10.5.1 Oversupply
10.5.2 Quality.
10.5.3 Large-volume markets
10.5.4 Commoditisation
10.5.5 Industrial end-user perspective.
11 CARBON NANOMATERIALS PRICING
11.1 Graphene pricing.
11.1.1 Pristine graphene flakes pricing/CVD graphene
11.1.2 Few-Layer graphene pricing
11.1.3 Graphene nanoplatelets pricing
11.1.4 Graphene oxide (GO) and reduced Graphene Oxide (rGO) pricing
11.1.5 Graphene quantum dots pricing
11.1.6 Multilayer graphene (MLG) pricing
11.1.7 Graphene ink
11.2 Carbon nanotubes pricing
11.3 Nanodiamonds pricing.
11.4 Fullerenes pricing
12 CARBON NANOMATERIALS IN 3D PRINTING
12.1 Market overview
12.2 Applications
12.3 Market assessment
12.4 Global market in tons, historical and forecast to 2030
12.5 Product developers
13 CARBON NANOMATERIALS IN ADHESIVES
14 CARBON NANOMATERIALS IN AEROSPACE
15 CARBON NANOMATERIALS IN AUTOMOTIVE
16 CARBON NANOMATERIALS IN BATTERIES
17 CARBON NANOMATERIALS IN COMPOSITES
18 CARBON NANOMATERIALS IN CONDUCTIVE INKS
19 CARBON NANOMATERIALS IN CONSTRUCTION
20 CARBON NANOMATERIALS IN ELECTRONICS
21 CARBON NANOMATERIALS IN FILTRATION
22 CARBON NANOMATERIALS IN FUEL CELLS
23 CARBON NANOMATERIALS IN LIFE SCIENCES AND MEDICINE
24 CARBON NANOMATERIALS IN LIGHTING
25 CARBON NANOMATERIALS IN LUBRICANTS
26 CARBON NANOMATERIALS IN OIL AND GAS
27 CARBON NANOMATERIALS IN PAINTS AND COATINGS
28 CARBON NANOMATERIALS IN PHOTONICS
29 CARBON NANOMATERIALS IN PHOTOVOLTAICS
30 CARBON NANOMATERIALS IN RUBBER AND TIRES
31 CARBON NANOMATERIALS IN SENSORS
32 CARBON NANOMATERIALS IN SMART TEXTILES AND APPAREL
33 CARBON NANOMATERIALS IN SUPERCAPACITORS
34 OTHER MARKETS
35 GRAPHENE COMPANY PROFILES
36 MULTI-WALLED CARBON NANOTUBES COMPANY PROFILES
37 SINGLE-WALLED CARBON NANOTUBES COMPANY PROFILES
38 NANODIAMONDS COMPANY PROFILES.
39 FULLERENES COMPANY PROFILES
40 OTHER 2-D MATERIALS
40.1 BOROPHENE
40.2 PHOSPHORENE
40.3 GRAPHITIC CARBON NITRIDE (g-C3N4)
40.4 GERMANENE
40.5 GRAPHDIYNE.
40.6 GRAPHANE
40.7 HEXAGONAL BORON-NITRIDE
40.8 MOLYBDENUM DISULFIDE (MoS2)
40.9 RHENIUM DISULFIDE (ReS2) AND DISELENIDE (ReSe2).
40.10 SILICENE
40.11 STANENE/TINENE
40.12 TUNGSTEN DISELENIDE.
40.13 ANTIMONENE.
40.14 DIAMENE
40.15 INDIUM SELENIDE
40.16 COMPARATIVE ANALYSIS OF GRAPHENE AND OTHER 2D MATERIALS.
41 RESEARCH METHODOLOGY
42 REFERENCES
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