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Europe Dual Carbon Battery Market Outlook to 2022 - Market Analysis by Geography, Application, Type, Competitive Landscape, Key Company Information - Growth Trends and Forecasts

  • ID: 4385716
  • Report
  • Region: Europe
  • 82 pages
  • Mordor Intelligence
until Dec 31st 2019
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Europe leads the world in terms of power generation. Few countries like Germany, France are aggressively increasing the use of electric vehicles. Dual carbon battery market could see a major growth in the coming years as a result of government subsidies, green revolution etc.

Global battery market is expanding every year. Japanese company, Power Japan Plus has recently come up with a new idea of dual carbon batteries, which is still in development stage. These batteries will get charged twenty times faster and lasts longer than high-end lithium ion batteries.

The battery, which is cheap to manufacture, safe and environmental friendly, could be ideal to improve the range and charging times of electric cars. The market for electric bikes and cars is roaring up in the recent years. The technology of this battery would allow you to charge a car in hardly 10-12 minutes instead of four hours. Because that battery has a capacity of 24 kWh, a back-of-the-envelope extrapolation would give a charging time of 42 minutes for the 85 kWh battery of a top of the line car.

It is expected that electric vehicles with the ability to drive 300 miles (480 km) on a single charge may soon be a reality. The dual carbon new battery is cheaper, safer, and 100% recyclable, making it an attractive option that could bring high-performance electric cars to market more quickly. The Ryden dual carbon battery could be the energy storage break-through needed to bring green technology like electric vehicles to mass market.

The construction of this battery is very simple. The anode and the cathode of the battery are both made out of carbon with an organic electrolyte solution that allows for ion current to flow separately. This also does not require the use of any rare Earth metals or other rare metals, significantly cutting down on the price of each unit.

Thermal stability means that this battery will not heat up while in use or during charging, and removes the threat of thermal explosion and making for a safer battery. This also means that expensive cooling systems do not need to be used, also driving down the price. The battery is stable enough to be discharged completely without harming the longevity of the product. Currently, the Ryden battery is rated for 3,000 charge/discharge cycles before the function of the battery begins to diminish. To put that into perspective, current electric cars advertise 300-500 charge cycles before the owner needs to think about replacing the battery.

Production is set to begin soon, initially producing 500-5,000 batteries per month. The first batteries produced are slated to be used in satellites and medical devices, and will expand operations

when the technology is licensed out for use in electric vehicles.

How would this report help?

The report discusses the dual carbon battery markets present trends and growth prospects explaining drivers and constraints of the industry and present market scenario. It also talks about global dual carbon battery market analysis and demand forecasts to 2022, which is further segmented in to type and by geography, which would be helpful to service providers, operators and investment companies those who are looking to invest in this sector. The report also includes, total market share of the key vendors and their business strategies particularly towards this segment, making it easy to pick a suitable service provider for oil and gas companies based on their budget and geographic conditions. The report also has key company information and competitive landscape.
Note: Product cover images may vary from those shown
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1 Introduction
1.1 Report Guidance
1.2 Markets Covered
1.3 Key Points Noted
2 Executive Summary
2.1 Overview and Market Scenario
3 Europe Power Batteries Market Trends 4 Drivers, Constraints and Opportunities
4.1 Drivers
4.1.1 Fast Charging Capability
4.1.2 Environmental Friendly
4.1.3 Cheap to Manufacture
4.2 Constraints
4.2.1 Unpredictable Market
4.2.2 Existing Competition from Other Battery Markets
4.2.3 Material Scarcity
4.3 Opportunities
4.3.1 Electric Vehicles Market
5 Europe Power Battery Market, by Type
5.1 Lithium-ion
5.1.1 Overview
5.1.2 Market Demand
5.1.3 Opportunities
5.2 Alkaline Battery
5.2.1 Overview
5.2.2 Market Demand
5.2.3 Opportunities
5.3 Starter Battery (SLI)
5.3.1 Overview
5.3.2 Market Demand
5.3.3 Opportunities
5.4 Stationary Lead-Acid
5.4.1 Overview
5.4.2 Market Demand
5.4.3 Opportunities
5.5 Primary Lithium
5.5.1 Overview
5.5.2 Market Demand
5.5.3 Opportunities
5.6 Nickel Metal Hydride
5.6.1 Overview
5.6.2 Market Demand
5.6.3 Opportunities
5.7 Primary Carbon Zinc
5.7.1 Overview
5.7.2 Market Demand
5.7.3 Opportunities
5.8 Deep Cycle Lead Acid
5.8.1 Overview
5.8.2 Market Demand
5.8.3 Opportunities
5.9 Nickel Cadmium
5.9.1 Overview
5.9.2 Market Demand
5.9.3 Opportunities
5.10 Dual Carbon Battery
5.10.1 Overview
5.10.2 Market Demand
5.10.3 Opportunities
6 Europe Dual Carbon Battery Market Analysis, by Application
6.1 Transportation
6.1.1 Automotive
6.1.2 Bus, Truck, Rail and Marine
6.1.3 Aviation
6.2 Stationary Storage
6.3 Portable Power
6.3.1 Consumer Electronics
6.3.2 Power Tools
6.4 Other Applications
7 Europe Dual Carbon Battery Market Analysis, by Country
7.1 Europe
7.1.1 Overview
7.1.2 Trends and Opportunities
7.1.3 Major Countries Germany Netherlands United Kingdom Others
8 Competition
8.1 Market Share of Key Companies, by Geography
8.2 Market Share of Key Companies, by Equipment
9 Competitive Landscape
9.1 Deal Summary
9.1.1 Acquisition
9.1.2 Private Equity
9.1.3 Equity Offerings
9.1.4 Debt Offerings
9.1.5 Partnerships
9.1.6 Asset Transactions
9.2 Recent Developments
9.2.1 New Technology Innovations
9.2.2 New Contract Announcements
10 Key Company Analysis
10.1 Amperex Technologies Ltd.
10.2 BYD
10.3 LG Chem
10.4 Panasonic
10.5 Samsung SDI
10.6 Johnson Controls
10.7 Lishen Tianjin
10.8 Hitachi Chemical
10.9 Loxus
10.10 JSR Corp.
10.11 Nippon Chemi-Con
10.12 Ambri
10.13 Amprius
10.14 Aquion Energy
10.15 Boulder Lonics
10.16 EnerVault
10.17 PolyPlus
11 Appendix
11.1 Sources
11.2 Abbreviations
11.3 Market Definition
11.3.1 Methodology
11.3.2 Coverage
11.3.3 Secondary Research
11.3.4 Primary Research
11.3.5 Expert Panel Validation
11.4 Contact Us
11.5 Disclaimer
Note: Product cover images may vary from those shown
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