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Global Rechargeable Lithium-Ion Batteries Market 2018-2021 - Types, Materials, Applications, New Developments and Industry Structure

Dublin, July 13, 2018 (GLOBE NEWSWIRE) -- The "Rechargeable Lithium-Ion Batteries for Stationary/Industrial, Automotive and Consumer Electronics - Types, Materials, Applications, New Developments, Industry Structure and Global Markets" report has been added to ResearchAndMarkets.com's offering.

Lithium-ion (Li-ion) has become the dominant rechargeable battery chemistry for consumer electronics devices and is poised to become commonplace for industrial, transportation and power-storage applications. This chemistry is different from previously popular rechargeable battery chemistries (e.g., nickel metal hydride, nickel cadmium and lead acid) in a number of ways. From a technological standpoint, because of high energy density, the demand for Li-ion rechargeable batteries has been driven by the rapid growth of electronic portable equipment, such as cellular phones, laptops and digital cameras.

In addition, market demand has been boosted by the expectation that rechargeable batteries will play a large role in alternative energy technology, as well as in electric bikes (e-bikes), electric vehicles (EVs), hybrid vehicles, and plug-in hybrid electric vehicles (PHEVs), and stationary energy storage applications such as medical, telecommunication, solar power storage, unmanned vehicles, remote stations, telecom sector, data center and remote location batteries.

Study Goal and Objectives

This study focuses on rechargeable Li-ion batteries, providing market data about the size and growth of the battery application segments and new developments, and it includes a detailed patent analysis, company profiles and industry trends. The goal of this report is to provide a detailed and comprehensive multi-client study of the market in North America, Europe, Japan, China, India, Korea and the rest of the world (ROW) for these batteries and potential business opportunities.

The objectives include thorough coverage of the underlying economic issues driving the use of the rechargeable Li-ion battery, as well as assessments of new advanced batteries that are being developed. Another important objective is to provide realistic market data and forecasts. This report provides the most thorough and up-to-date assessment that can be found anywhere on the subject. The study also provides extensive quantification of the many important facets of market developments in rechargeable Li-ion batteries all over the world. This, in turn, contributes to the determination of strategic responses which companies may adopt in order to compete in this dynamic market.

Scope and Format

Modern Li-ion batteries hold more than twice as much energy by weight as the first commercial versions sold by Sony in 1991 - and are ten times cheaper.

For the stationary segment, users and manufacturers are looking for new waves of opportunity in rechargeable Li-ion battery chemistries for higher energy density in a given space for more run time.

The reason for exploring this stationary/industrial market segment is to project the growth of the market for stationary mega-scale lithium battery energy storage. Power trading through a frequency regulation market is emerging as a mechanism for preventing instability in the power grid that might result from the feed-in of increasingly and widely used renewable energy sources, such as wind power and photovoltaic generation.

For automotives, the next five years will clearly be a transition period from the petro-car to the electric car. This transition will feature an interesting horse race between different lithium battery manufacturers offering cost effective power solutions, ease of recharging, guaranteed long life and safety of device or equipment where the battery is used.

The reason for looking at the automotive market segment is to project demand for rechargeable Li-ion batteries for efficient and eco-friendly vehicles. This is linked to the depletion of fossil fuel and oil supply combined with global warming, pollution and greenhouse gas emissions worldwide, which have resulted in a growing demand for efficient and eco-friendly vehicles. Responding to this need, governments of many nations provide various incentives for utilizing electric vehicles, such as reduced electric taxi fares, tax benefits, and subsidies for electric vehicle purchasers. Many parts of Europe have banned the use of vehicles operated by conventional combustion engines within the public transportation sector and are focusing on switching to electrical or hybrid vehicles. Several commercial projects are underway as well.

In the consumer electronics segment, Li-ion battery users and manufacturers are looking for new opportunities in rechargeable ion battery chemistries for higher energy density in a given space, for increased run time. In this segment, rapid growth in the use of Li-ion rechargeable batteries in electronic portable equipment, such as cellular phones, laptops and digital cameras is projected.

Current battery technologies are limited, making plug-in hybrid or all-electric cars prohibitively costly and insufficient to meet consumer demands. Long-term, fundamental research in electrical energy storage will be needed to accelerate the pace of scientific discoveries and to see transformational advances that bridge the gaps in cost and performance, separating the current technologies and those required for future utility and transportation needs.

Medium-sized energy storage modules using Li-ion batteries for powering telecom towers, power tools, data centers and remote location battery applications have been highlighted, with construction details. Industry dynamics, alliances and sales agreements between cell manufacturers and electric carmakers/OEMs impacting the market place are a special focus. Current markets and market potential across North America, Europe, Japan, China, Korea and the rest of the world have been quantified.

Key Topics Covered

1. Introduction

  • Study Goal and Objectives
  • Reasons for Doing the Study
  • Contributions of the Study
  • Scope and Format
  • Methodology
  • Information Sources
  • Whom the Study Caters to
  • Author's Credentials

2. Executive Summary

  • Summary Table A: Market Estimate for Rechargeable Lithium Batteries by Application Segments, 2016-2022
  • Summary Table B: Market Share for Rechargeable Lithium Batteries by Application Segments, 2017 and 2022
  • Summary Figure A

3. Industry and Market Overview

  • Key Cell Manufactures
  • Table 1: Lithium-Ion Cell Chemistries Adopted by Battery Manufacturers
  • Global Market Overview
  • Table 2: Market Estimate for Rechargeable Lithium Batteries by Application Segments, 2016-2022
  • Table 3: Market Size of Rechargeable Lithium Cell Production by Cathode Electrode Chemistry, 2016 and 2021
  • Figure 1: Market Size of Rechargeable Lithium Cell Production by Cathode Electrode Chemistry, 2016 and 2021
  • Figure 2: Regionwise Share of Rechargeable Lithium Batteries/Modules/Cells for Stationary Applications by Region, 2016 and 2021
  • Figure 3: Regionwise Share of Rechargeable Lithium Battery/Modules/Cells for Automotives by Region, 2016 and 2021
  • Figure 4: Regionwise Share of Rechargeable Lithium Battery/Modules/Cells for Consumer Electronics by Region, 2016 and 2021
  • Industry Dynamics
  • Lithium Battery Supplier Agreements to Telecom Operators of Stationary Markets
  • Table 4: Global Supply Agreements Between Lithium Battery Energy Storage Manufacturing Firms (Kilowatt Hour Scale) and Telecom Tower Utilities
  • Lithium Battery Supplier Alliances With Oems in the Automotive Market
  • Table 5: Global Alliances Between Lithium Cell Manufacturers and Automakers
  • Table 6: Global Supply Agreements Between Lithium Cell Manufacturers and Oem Automakers Or Tier 1 Suppliers
  • Lithium Battery Suppliers to Oems in the Consumer Electronics Market
  • Table 7: Supply Agreements Among Lithium Cell Manufacturers, Product Category and Related Consumer Electronics OEMS

4. Technology Overview

  • Principles of Operation of Li-Ion Rechargeable Cells
  • Figure 5: Schematic of A Lithium-Ion Cell
  • Charging and Discharging
  • Self-Discharging
  • Components of Rechargeable Cells
  • Figure 6: Schematic of A Cylindrical Lithium-Ion Cell
  • Cathodes
  • Anodes
  • Electrolytes and Additives
  • Cell Enclosures (Cases and Pouches)
  • Figure 7: Typical Cells Used in Lithium Batteries
  • Polymer Lithium-Ion Battery (PLI)
  • Comparison of Chemstries Used
  • Chemistry
  • Table 8: Key Characterstics of Competing Lithium Battery Technologies
  • Figure 8: Specific Energy Densities of Different Chemistries in Lithium-Ion Cells
  • Lithium Cobalt Oxide
  • Lithium Manganese Oxide
  • Lithium Iron Phosphate
  • Lithium Nickel Manganese Cobalt Oxide
  • Lithium Nickel Cobalt Aluminum Oxide
  • Lithium Titanate
  • From Cells to Modules to Battery Packs
  • Figure 9: Schematic of A Cell, Module, Pack
  • Battery Configuration: Cells in Series and Parallel
  • Figure 10: Battery Configuration Cells in Series and Parallel
  • Electronics Protection Packages for Lithium-Ion Battery Packs
  • Charge Interrupt Devices
  • Positive Temperature Coefficient Switches
  • Battery Pack Protection Electronics
  • Requirements for Protection Electronics Systems
  • Battery Pack Enclosures
  • Table 9: Price Assumption for Rechargeable Lithium Battery/Modules/Cells, 2016 and 2021
  • Technology of Rechargeable Lithium-Ion Battery Packs for Automotives
  • Table 10: Broad Categories of Representative Automotive Lithium- Ion Rechargeable Battery Products
  • Construction Features
  • Key Parameters to Qualify Batteries for Automotive Usage
  • Table 11: Six Parameters Considered to Qualify Batteries for Automotive Evs
  • Lithium Battery Architecture for Automotive Applications
  • Automotive Battery Management Systems
  • Figure 11: View of A 60 Kwh Lithium Battery for Automotive Evs
  • Automotive Battery Enclosures
  • Plug-In Hybrid Electric Vehicles (Phev) Using Lithium-Ion Batteries
  • Pure Electric Vehicles (Evs)
  • Pure Electric Buses
  • Pure Electric Motorcycles and Other Two-Wheelers (E-Scooters, Pedelecs)
  • Pedelecs
  • Technology of Rechargeable Lithium-Ion Battery Packs for Consumer Electronics
  • Market Distribution of Lithium Ion Batteries for Consumer Electronics Segment
  • Table 12: Broad Specification of Consumer Electronics Lithium Ion Rechargeable Battery Products
  • Construction Features
  • Safety
  • Choice of Chemistry of Lithium-Ion Batteries for Mobile Electronics
  • Figure 12: Consumer Electronics Grade Lithium-Ion Battery Module60
  • Consumer Electronics Standards
  • UL Standards
  • IEC Standards
  • IEEE Standards

5. Future Trends in Lithium-Ion Batteries

  • Ongoing Research in Lithium-Ion Rechargeable Batteries
  • Table 13: Summary of Ongoing Research on Lithium-Ion Rechargeable Batteries in the U.S., 2011 to Today
  • Table 14: Summary of New Research Done on Lithium-Ion Batteries Outside the U.S., 2010-2016

6. New Fundings and Acquisitions

  • Table 15: U.S. Government Funding to Develop Rechargeable Li-Ion
  • Battery Materials, 2010-2016
  • Table 16: International Funding and Agreements to Develop Rechargeable Li-Ion Battery Materials, 2010-2016

7. Recent Patents

  • Positive Electrode for Rechargeable Lithium Battery, Preparing Same, and Rechargeable Lithium Battery
  • Lithium-Ion Cell, Lithium-Ion Rechargeable Battery and Motor Vehicle With a Lithium-Ion Rechargeable Battery
  • Anode Active Material for Lithium-Ion Batteries
  • Lithium Ion Battery Control System and Assembled Battery Control System
  • Battery System, Vehicle, and Battery-Mounting Device
  • Lithium Titanate Oxide as Negative Electrode in Li-Ion Cells
  • Lithium Manganese-Based Oxide and Cathode Active Material Including the Same
  • Cathode Active Material for Lithium Secondary Battery and Method for Manufacturing the Same
  • Lithium-Ion Batteries With Nanostructured Electrodes

8. Industry Structure and Market for Stationary Power and Industrial Applications

  • Construction Features
  • Battery Pack
  • Market Distribution of Lithium-Ion-Batteries for the Stationary Power Market Segment
  • Table 17: Range of Products in the Stationary Lithium-Ion Rechargeable Battery Market
  • Table 18: Product Reference Matrix of Stationary Lithium-Ion Rechargeable Battery
  • Lithium Battery Architecture for Stationary Applications
  • Table 19: Architecture of Stationary Lithium-Ion-Based Battery Energy Storage Systems
  • Industry Structure of Stationary Lithium Batteries
  • Current and Projected Requirements for Battery Energy Storage Systems
  • Figure 13: Total Operational Battery Projects by Country
  • United States
  • Japan
  • China
  • Europe
  • Korea
  • India
  • Sub-Applications in Grid-Scale Storage Using Lithium Rechargeable Batteries
  • Transmission and Distribution Deferral
  • Renewables Integration
  • Li-Ion Rechargeable Battery Solar Photovoltaic Energy Storage Solutions
  • Figure 14: Containerized Grid-Scale Lithium-Ion Rechargeable Battery Energy Storage System
  • Microgrids and Smart Grids
  • On and Off-Grid Remote Power
  • Telecommunications Applications (Telecom Tower Powering)
  • Figure 15: Construction of Custom Lithium-Ion Rechargeable Battery
  • Mid-Sized Battery Backups Based on Lithium Rechargeable Batteries
  • Table 20: Examples of Custom Uses for Stationary Lithium-Ion Rechargeable Batteries for Stationary Applications
  • Industrial Uses (Power Tools)
  • Figure 16: Power Tools, Ups and Industrial Usage Examples for Custom Lithium-Ion Batteries
  • Projects Using Grid-Scale Storage Based on Lithium-Ion Batteries
  • Table 21: Ongoing Projects Using Lithium-Ion Based Grid-Scale Battery Energy Storage Systems in 2016
  • Future Energy Systems Using Grid-Scale Storage With Lithium-Ion Batteries
  • Market for Stationary and Industrial Applications
  • Table 22: Market for Rechargeable Lithium Batteries for Stationary/Industrial Applications
  • Table 23: Market Size of Rechargeable Lithium Battery/Modules/Cells for Stationary by Region, 2016 and 2021
  • Figure 17: Market Size of Rechargeable Lithium Battery/Modules/Cells for Stationary by Region, 2016 and 2021

9. Industry Structure and Market for Automotive Applications

  • Table 24: Product Reference Matrix of Automotive-Grade Lithium-Ion Rechargeable Battery
  • Country Requirements for Lithium Batteries in Automotives
  • United States
  • Japan
  • China
  • Europe
  • Korea
  • Automotive Market
  • Table 25: Global Market for Rechargeable Lithium Batteries for Automotive Applications, 2016 and 2021
  • Table 26: Market Size for Rechargeable Lithium Batteries/Modules/Cells for Automotives by Region, 2016 and 2021
  • Figure 18: Market Size of Rechargeable Lithium Batteries/Modules/Cells for Automotives by Region, 2016 and 2021

10. Industry Structure and Market for Consumer Electronics

  • Table 26: Product Reference Matrix of Stationary Lithium-Ion Rechargeable Batteries
  • Lithium Battery Architecture for Consumer Electronics Applications
  • Mobile Phones
  • Notebooks
  • Digital Cameras and Camcorders
  • Other Products (Mobile DVD Players, Mp3S, Cordless Phones)
  • Future Trends in Lithium Ion Batteries for Consumer/Mobile Electronics
  • Progress on LCO (Licoo2) Cathodes
  • Progress on NCM Cathodes
  • Progress on LMC (Spinel Cathodes)
  • Consumer Electronics Market
  • Table 27: Market for Rechargeable Lithium Batteries for Consumer Electronics Applications, 2016 and 20121
  • Table 28: Market Size of Rechargeable Lithium Batteries/Modules/Cells for Consumer Electronics Market by Region, 2016 and 2021
  • Figure 19: Market Size of Rechargeable Lithium Batteries/Modules/Cells for Consumer Electronics Market by Region, 2016 and 2021

11. Company Profiles

  • Part I - Original Equipment Manufcturers
  • A123 Systems, Llc
  • Altairnano
  • Amperex Technology Limited
  • Toshiba Corporation
  • Tesla Motors
  • Valence Technology, Inc.
  • Part II - Other Tier 1 Battery Developers/Integrators/Cell Assemblers
  • Acme Cleantech Solutions Private Limited
  • Meircell Ltd.
  • Part III: Experts Providing Proprietory Energy Management Software (Ems) Services to Power Utilities Using Large-Format Lithium Batteries for Stationary Applications
  • Aes Energy Storage, Llc
  • Aeg Power Solutions B.V.
  • Younicos Gmbh
  • Part IV: Tier 1 Suppliers of Proprietary Automotive Batteries Using Large-Format Lithium Cells/Batteries
  • Automotive Energy Supply Corporation (Aesc)
  • S B Limotive Co. Ltd.
  • Tesla Motors
  • Part V: Battery Management Systems Experts Targeting Large Format Lithium Batteries for Automotives and Grid-Scale Battery Energy Storage Systems (ESS)
  • AVL List Gmbh
  • Part Vi: Battery Energy Storage System Solution Providers/ Experts and Consultants
  • CIE Solutions Llc
  • Part Vii: Key Users of Lithium-Ion Batteries in Stationary/Industrial Applications
  • AES Corporation
  • Bosch Power Tools Group
  • Stanley Black & Decker, Inc.
  • Vestas Wind Systems A/S
  • Part Viii - Key Users of Lithium-Ion Batteries in Automotives
  • Bosch Engineering Gmbh
  • Coda Automotive
  • Think Global As
  • Toyota Motor Corporation
  • Wanxiang
  • Part IX: Key Users of Lithium-Ion Batteries in Consumer Electronics
  • Apple Inc.
  • Samsung

For more information about this report visit https://www.researchandmarkets.com/research/lt6k2g/global?w=12

                    
                    
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                             Related Topics: Telematics and Vehicle Electronics, Automotive Batteries
                    

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