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Nanomaterials and the World Lithium Ion Battery Market: Applications, Products, End User Markets, Companies and Revenues

February 2011 | 70 pages | ID: N77290AEB9FEN
Future Markets, Inc.

US$ 1,050.00

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Lithium ion batteries have received considerable attention in applications ranging from portable electronics to electric vehicles and plug-in hybrids, due to their superior energy density over other rechargeable battery technologies. Market demand for lighter, thinner and higher capacity lithium ion batteries necessitate ongoing research for new materials with improved properties over that of state-of-the-art. Nanostructured materials are allowing companies to develop the next generation of clean energy storage devices with high power density, high energy density and high safety for application in sectors such as hybrid electric vehicles (HEV), plug in hybrid electric vehicles (PHEV) and pure electric vehicles (PEV). Automotive companies such as Chrysler utilize nanomaterials in their electric vehicles to improve battery capacity, cycle life, and charge-discharge rates while a high degree of safety.

Other large multinational companies developing nanomaterial based battery products include GE, Panasonic Sanyo, Matsushita Industrial Co., Ltd., NEC, Toshiba, LG Chem, Samsung and Sony for application in areas such as cell phones and PCs, medical devices, military applications and cordless power tools. Innovative product developers and materials producers include A123 Systems, mPhase Technologies and Altair Nanotechnologies. The world market for nanomaterial enabled lithium ion battery systems was $63million in 2010, rising to $575million by 2017.

Report contents include:
  • How carbon nanotubes, fullerenes and POSS, graphene, metal oxide nanopowders, metal nanopowders, nanofibers, nanoporous materials, and nanowires are being applied to lithium ion batteries and by whom
  • Global market revenues to 2017, by nanomaterials
  • Market structure
  • Market drivers
  • 75 company profiles including products and sub sector markets
1 EXECUTIVE SUMMARY

2 REPORT METHODOLOGY

3 NANOMATERIALS IN BATTERIES

3.1 CARBON NANOTUBES
  3.1.1 Materials overview
  3.1.2 Carbon nanotubes in batteries: Properties, applications and companies
  3.1.3 Revenues, 2010-2017
3.2 FULLERENES AND POSS
  3.2.1 Materials overview
  3.2.2 Fullerenes and POSS in batteries: Properties, applications and companies
  3.2.3 Revenues, 2010-2017
3.3 GRAPHENE
  3.3.1 Materials overview
  3.3.2 Battery applications
  3.3.3 Revenues, 2010-2017
3.4 METAL OXIDE NANOPOWDERS
  3.4.1 Materials overview
  3.4.2 Battery applications
  3.4.3 Revenues, 2010-2017
3.5 METAL NANOPOWDERS
  3.5.1 Materials overview
  3.5.2 Metal nanopowders in batteries: Properties, applications and companies
  3.5.3 Revenues, 2010-2017
3.6 NANOFIBERS
  3.6.1 Materials overview
  3.6.2 Nanofibers in batteries: Properties, applications and companies
  3.6.3 Revenues, 2010-2017
3.7 NANOPOROUS MATERIALS
  3.7.1 Materials overview
  3.7.2 Nanoporous materials in batteries: Properties, applications and companies
  3.7.3 Revenues, 2010-2017
3.8 NANOWIRES
  3.8.1 Materials overview
  3.8.2 Nanowires in batteries: Properties, applications and companies
  3.8.3 Revenues, 2010-2017

4 COMPANY PROFILES (71 PROFILES)

REFERENCES

TABLES AND FIGURES

Table 1: Market overview for nanomaterials and the battery sector
Figure 1: Global revenues for nanomaterials enabled battery products, by materials type, 2010
Figure 2: Global revenues for nanomaterials enabled battery products, by materials type, 2017
Table 2: Carbon nanotubes in batteries
Figure 3: Global revenues for carbon nanotube enabled battery applications, 2010-2017
Table 3: Fullerenes and POSS in batteries
Figure 4: Global revenues for fullerene and POSS enabled battery applications, 2010-2017
Table 4: Graphene versus nanotubes properties
Table 5: Graphene in batteries
Figure 5: Global revenues for graphene enabled battery applications, 2010-2017
Table 6: Metal oxide nanopowders in batteries
Figure 6: Global revenues for metal oxide nanopowder enabled battery applications, 2010-2017
Table 7: Applications of metal nanopowders in the energy market
Figure 7: Global revenues for metal nanopowder enabled battery applications, 2010-2017
Table 8: Applications of nanofibers in the energy market
Figure 8: Global revenues for nanofiber enabled battery applications, 2010-2017
Table 9: Applications of nanoporous materials in the energy market
Figure 9: Global revenues for nanoporous material enabled battery applications, 2010-2017
Table 10: Applications of nanowires in the energy market
Figure 10: Global revenues for nanowire enabled battery applications, 2010-2017


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