DUBLIN–(BUSINESS WIRE)–The "The Global Market for Nanomaterials in Batteries and Supercapacitors" report has been added to ResearchAndMarkets.com's offering.
With global energy demands ever-increasing, allied to efforts to reduce the use of fossil fuel and eliminate air pollutions, it is now essential to provide efficient, cost-effective, and environmentally friendly energy storage devices. The growing market for smart grid networks, electric vehicles (EVs) and plug-in hybrid electric vehicles (PHEVs) is also driving the market for improving the energy density of rechargeable batteries.
Rechargeable battery technologies (such as Li-ion, Li-S, Na-ion, Li-O2 batteries) and supercapacitors are among the most promising power storage and supply systems in terms of their widespread applicability, and tremendous potential owing to their high energy and power densities. LIBs are currently the dominant mobile power sources for portable electronic devices used in cell phones and laptops.
Although great advances have been made, each type of battery still suffers from problems that seriously hinder the practical applications for example in commercial EVs and PHEVs. The performance of these devices is inherently tied to the properties of materials used to build them. Nanotechnology and nanomaterials will play an important role in all aspects of the energy sector:
Lithium-ion batteries have shown great promise in portable electronics and electric vehicles due to their long lifespan and high safety. However, hurdles relating to the sluggish dynamics and poor cycling stability restrict the practical application. Nanostructured materials, due to their significantly decreased particles size, are thought to effectively address these issues.
Advantages of nanomaterials include:
- Nanoscale shortens lithium-ion diffusion length.
- New reactions at nanoscale are not possible with bulk materials.
- Nanoscale combining with electronic conductive coating improves electronic transport.
- Decreased mechanical stresses due to volume change lead to increased cyclability and lifetime.
- Nanoscale enhances the electrode capability of Li storage.
- Ordered mesoporous structure favours both Li storage and fast electrode kinetic.
- Nano-structure enhances cycle stability.
Nanomaterials are also finding application in Lithium-sulfur (Li-S) batteries, sodium-ion batteries, lithium-air batteries, Magnesium batteries and paper, flexible and stretchable batteries. Nanomaterials, especially carbon nanomaterials, have been widely investigated as effective electrodes in supercapacitors due to their high specific surface area, excellent electrical and mechanical properties.
Applications of nanomaterials in batteries and supercapacitors include:
- Electrodes in batteries and capacitors.
- Anodes, cathodes and electrolytes in Li-ion (LIB) batteries.
- Inks printable batteries and supercapacitors.
- LIB cathodes.
- Anode coatings to prevent corrosion.
- Nanofiber-based polymeric battery separators.
- Biodegradable green batteries.
Report contents include:
- Battery and supercapacitor market megatrends and market drivers.
- Types of nanomaterials utilized in batteries and supercapacitors.
- Global market for in tons, historical and forecast to 2030, by nanomaterials types
- Markets for nanomaterials in batteries and supercapacitors including electric vehicles, UAVs, medical wearables, consumer wearables and electronics.
- Over 150 in-depth company profiles.
Key Topics Covered:
1 EXECUTIVE SUMMARY
2 NANOMATERIALS IN BATTERIES
2.1 Battery market megatrends
2.1.1 Electrification of transport
2.1.2 Reducing dependence on lithium and other materials (e.g. cobalt).
2.1.3 Growth in demand for thin and flexible batteries, energy harvesting wearable devices and smart textiles
2.1.4 Development of next-generation flexible electronics
2.1.5 Development of next-generation flexible electronics
2.1.6 Improving the energy density of rechargeable batteries
2.1.7 Growing market for electricity grid for renewable generation, smart grids and distributed energy resources; portable electronics; electric vehicles (EVs); and plug-in hybrid electric vehicles (PHEVs)
2.1.8 Demand from wearable healthcare devices
2.2 Nanomaterials in Li-ion batteries
2.3 Nanomaterials in Lithium-sulfur (Li-S) batteries
2.4 Nanomaterials in Sodium-ion batteries
2.5 Nanomaterials in Lithium-air batteries
2.6 Nanomaterials in Magnesium batteries
2.7.1 Market overview
2.7.3 Global market in tons, historical and forecast
2.7.4 Product developers
2.8 Carbon nanotubes
2.8.1 Market overview
220.127.116.11 Carbon nano-onions (CNOs) or onion-like carbon (OLC),
2.8.3 Global market in tons, historical and forecast
2.8.4 Product developers
2.1: Graphene Quantum Dots
2.1: Other nanomaterials
2.11.1: Carbon nanofibers
2.11.2: Lithium nanoparticles
2.11.3: Cobalt oxide nanoparticles
2.11.4: Bismuth oxide nanoparticles
2.11.5: Indium oxide nanoparticles
2.11.6: Manganese oxide nanoparticles
2.11.7: Zirconium oxide nanoparticles
2.11.8: Silicon nanowires
2.11.9: Quantum dots
2.11.1: Cellulose nanofibers
18.104.22.168 Li-ion battery separators
22.214.171.124 Additives for paper batteries
2.11.1: Cellulose nanocrystals
126.96.36.199 Flexible batteries
2.11.1: Molybdenum disulfide
3 NANOMATERIALS IN SUPERCAPACITORS
3.1 Supercapacitors market megatrends
3.3 Carbon nanotubes
4 COMPANY PROFILES
5 RESEARCH METHODOLOGY
- Ashai Kasei
- DKS Co. Ltd
- Ray-Techniques Ltd
- Skeleton Technologies
- US Forest Service
- ZapGo Ltd
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