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Global Electrical Vehicle Battery Market

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    Report

  • 302 Pages
  • August 2023
  • Region: Global
  • BCC Research
  • ID: 5853924
Description Jump to:

This report provides an analysis of the global market for electric vehicle batteries. Using 2022 as the base year, the report provides estimated market data for 2023 through 2028. This report also offers insights on drivers and opportunities for the market, which were gathered through primary and secondary research. It also covers various market factors, including COVID-19 impact, the Russia-Ukraine war, Porter’s five forces, use case analysis, and the regulatory landscape.

The report has been prepared in a simple, easy-to-understand format, with some tables and charts/figures. The report’s scope includes a detailed study of global and regional markets for battery type, propulsion, vehicle type, method, battery capacity, battery form, and material type. The qualitative and quantitative data of all segments are provided in the report. The report examines each segment, determines its current market size, and estimates its future market size with compound annual growth rates (CAGR).

The report also provides detailed profiles of the significant electric vehicle battery players and their strategies to enhance their market presence. The report also includes a competitive landscape chapter that discusses the market ecosystem of the top electric vehicle battery provider in 2022.

Report Includes

  • 47 data tables and 51 additional tables
  • An overview of the global markets for electrical vehicle battery
  • Estimation of market size and analyses of global market trends, with data from 2022, estimates for 2023 and 2024, and projections of compound annual growth rates (CAGRs) through 2028
  • Highlights of the market potential and characterization of electrical vehicle battery market by battery type, propulsion, vehicle type, method, battery capacity, battery form, material type and region
  • Insights into government initiatives, laws, and incentives to encourage electric vehicle usage and information on significant improvements in battery chemistry, materials, and manufacturing techniques
  • Description of gigafactories, the companies who run them and discussion on how they help in improving battery production capacity resulting in low cost and easy availability of EV batteries
  • Coverage of emerging technologies and developments of the industry
  • Evaluation of key industry acquisitions and strategic alliances and market share analysis of the leading suppliers of the industry
  • Profiles of the key companies of the industry, including BYD Co. Ltd., LG Chem, Mitsubishi Corp., Panasonic Holdings Corp. and Toshiba Corp.

Table of Contents

Chapter 1 Introduction
  • Overview
  • Study Goals and Objectives
  • Reasons for Doing this Study
  • Scope of Report
  • Methodology
  • Information Sources
  • Geographic Breakdown
Chapter 2 Summary and Highlights
  • Market Overview
Chapter 3 Market Overview
  • Introduction
  • Evolution of Electric Vehicle Batteries
  • Value Chain Analysis
  • Raw and Processed Materials
  • Cell Component Manufacturing
  • Cell Manufacturing
  • Battery Pack Manufacturing
  • Electric Vehicles Manufacturing
  • Recycling
  • Porter's Five Forces Model
  • Supplier Power
  • Buyer Power
  • Threat of New Entrants
  • Threat of Substitute
  • Competitive Rivalry
  • Impact of Covid-19 and Ukraine-Russia War on the Global Market
  • Covid-19 Impact
  • Impact of the Russia-Ukraine War
Chapter 4 Market Dynamics
  • Overview
  • Key Market Drivers
  • Increase in Demand for Electric Vehicles (Hevs, Phevs, Pure Evs, and Fcevs)
  • Cost Reductions for Ev Batteries
  • Growing Demand for Clean Energy
  • Reduction of Carbon Emissions
  • Market Restraints
  • High Capital Cost for Electric Vehicles Compared to Conventional Ice Vehicles
  • Inadequate Electric Vehicle Charging Infrastructure
  • Key Challenges in the Market for Electric Vehicle Batteries
  • Battery Capacity is Limited
  • Inadequate Uniformity of Electric Vehicle Charging Infrastructure
  • Market Opportunities
  • Government Efforts Relating to Electric Vehicles
  • Government Agencies Are Promoting the Establishment of Electric Charging Stations
  • To Feed the Market, Researchers Are Developing Wireless Ev Charging Technologies for On-The-Go Charging
  • Short-Term and Long-Term Impact of Market Dynamics
Chapter 5 Market Breakdown by Type of Battery
  • Overview
  • Lithium-Ion Batteries and Advanced Batteries
  • Lithium Battery Chemistry
  • Construction of Lithium-Ion Batteries
  • Advance Battery
  • Solid-State Batteries
  • Sodium-Ion Battery
  • Nickel-Metal Hydride Batteries
  • Lead-Acid Batteries
Chapter 6 Market Breakdown by Type of Propulsion
  • Overview
  • Battery Electric Vehicle (Bev)
  • Market Drivers for Battery Electric Vehicles
  • Key Components of Battery Electric Vehicle (Bev)
  • Hybrid Electric Vehicle (Hev)
  • Market Drivers for Hybrid Electric Vehicles
  • Operation of Hybrid Electric Vehicles
  • Key Components of a Hybrid Electric Vehicle (Hev)
  • Plug-In Hybrid Electric Vehicle (Phev)
  • Operation of Plug-In Hybrid Electric Vehicles
  • Market Drivers for Plug-In Hybrid Electric Vehicle
  • Key Components of a Plug-In Hybrid Electric Car (Phev)
  • Fuel Cell Electric Vehicle (Fcev)
  • Key Components of a Fuel Cell Electric Vehicle (Fcev)
Chapter 7 Market Breakdown by Type of Vehicle
  • Overview
  • Passenger Cars
  • Passenger Vehicle Market Summary
  • Vans
  • Bus
  • Electric Bus Market Summary
  • Truck
  • Other Types of Vehicles
  • Two-Wheeler
  • Off-Highway Vehicle
Chapter 8 Market Breakdown by Bonding Method
  • Overview
  • Wire Bonding
  • Laser Bonding
Chapter 9 Market Breakdown by Battery Capacity
  • Overview
  • <50 Kwh
  • 50-100 Kwh
  • 100-200 Kwh
  • 200-300 Kwh
  • >300 Kwh
Chapter 10 Market Breakdown by Battery Form
  • Overview
  • Prismatic
  • Cylindrical
  • Pouch
Chapter 11 Market Breakdown by Type of Material
  • Overview
  • Lithium
  • Cobalt
  • Nickel
  • Other Types of Materials
  • Manganese
  • Natural Graphite
Chapter 12 Market Breakdown by Region
  • Overview
  • North America
  • U.S.
  • Canada
  • Europe
  • Germany
  • France
  • Norway
  • U.K.
  • Rest of Europe
  • Asia-Pacific
  • China
  • Japan
  • South Korea
  • India
  • Rest of Asia-Pacific
  • Rest of the World
  • Middle East and Africa
  • South America
Chapter 13 Esg Development
  • Overview
  • Electric Vehicle Batteries and Esg Are Closely Related
  • Importance of Esg in the Electric Vehicle Battery Industry
  • Approach by Electric Vehicle Batteries to Achieve Esg Goals
  • Esg Penetration for Ev Battery Manufactures
  • Current Status of Esg in the Market for Electric Vehicle Batteries
  • Future of Esg With Electric Vehicle Battery Industry
  • Case Study: Examples of Successful Implementation of Esg
  • Concluding Remarks
Chapter 14 Emerging Technologies and Developments
  • Introduction
  • Current Market Trends
  • Increased Energy Density
  • Cost Reduction
  • Extended Battery Life
  • Fast-Charging Infrastructure
  • Sustainable and Recyclable Batteries
  • Emerging and Upcoming Trends in Electric Vehicle Batteries
  • Technological Background
  • Advancements in Electric Vehicle Batteries Technology
  • Longer Battery Lifespan
  • Recycling and Second-Life Applications
  • Integration of Battery and Vehicle Systems
  • Sustainable Battery Materials
  • Collaborations and Partnerships
Chapter 15 Patent Analysis
  • Overview
  • Key Patents
Chapter 16 M&A and Funding Outlook
  • M&A Analysis
  • Start-Up Funding in Electric Vehicle Batteries
Chapter 17 Competitive Landscape
  • Overview
  • Market Share Analysis
  • Market Strategy Analysis for Electric Vehicle Batteries
  • Agreements
  • Partnerships
  • Product Launches
  • Expansions
  • Investments
  • Key Market Developments
  • Agreement
  • Partnership
  • Product Launch
  • Expansion
  • Investment
Chapter 18 Company Profiles
  • Byd Co. Ltd.
  • Contemporary Amperex Technology Ltd. (Catl)
  • China Lithium Battery Technology Co. Ltd. (Calb)
  • Clariosno
  • Enersys
  • Envision Automotive Energy Supply Corp. (Aesc)
  • Lg Chem
  • Mitsubishi Corp.
  • Molicel
  • Panasonic Holdings Corp.
  • Samsung Sdi Co. Ltd.
  • Sk on Co. Ltd.
  • Toshiba Corp.
  • Vehicle Energy Japan Inc.
  • Primearth Ev Energy Co. Ltd.
Chapter 19 Appendix: Acronyms
List of Tables
Summary Table: Global Market for Electric Vehicle Batteries, by Region, Through 2028
Table 1: Raw Material Producing Countries
Table 2: Impact of Market Drivers on the Global Market
Table 3: Impact of Restraints on the Global Market
Table 4: Impact of Challenges on the Global Market
Table 5: Impact of Opportunity on the Global Market
Table 6: Global Market for Electric Vehicle Batteries, by Type of Battery, Through 2028
Table 7: Global Market for Electric Vehicle Batteries, by Type of Propulsion, Through 2028
Table 8: Global Market for Electric Vehicle Batteries, by Type of Vehicle, Through 2028
Table 9: Consensus, Optimistic, and Pessimistic Scenarios for EV Passenger Vehicles
Table 10: Consensus, Optimistic, and Pessimistic Scenarios for the Electric Bus Market
Table 11: Consensus, Optimistic, and Pessimistic Scenarios for Electric Scooters
Table 12: Global Market for Electric Vehicle Batteries, by Bonding Method, Through 2028
Table 13: Global Market for Electric Vehicle Batteries, by Battery Capacity, Through 2028
Table 14: Global Market for Electric Vehicle Batteries, by Battery Form, Through 2028
Table 15: Global Market for Electric Vehicle Batteries, by Type of Material, Through 2028
Table 16: Global Market for Electric Vehicle Batteries, by Region, Through 2028
Table 17: North American Market for Electric Vehicle Batteries, by Country, Through 2028
Table 18: North American Market for Electric Vehicle Batteries, by Type of Battery, Through 2028
Table 19: North American Market for Electric Vehicle Batteries, by Type of Propulsion, Through 2028
Table 20: North American Market for Electric Vehicle Batteries, by Type of Vehicle, Through 2028
Table 21: North American Market for Electric Vehicle Batteries, by Bonding Method, Through 2028
Table 22: North American Market for Electric Vehicle Batteries, by Battery Capacity, Through 2028
Table 23: North American Market for Electric Vehicle Batteries, by Battery Form, Through 2028
Table 24: North American Market for Electric Vehicle Batteries, by Type of Material, Through 2028
Table 25: European Market for Electric Vehicle Batteries, by Country, Through 2028
Table 26: European Market for Electric Vehicle Batteries, by Type of Battery, Through 2028
Table 27: European Market for Electric Vehicle Batteries, by Type of Propulsion, Through 2028
Table 28: European Market for Electric Vehicle Batteries, by Type of Vehicle, Through 2028
Table 29: European Market for Electric Vehicle Batteries, by Bonding Method, Through 2028
Table 30: European Market for Electric Vehicle Batteries, by Battery Capacity, Through 2028
Table 31: European Market for Electric Vehicle Batteries, by Battery Form, Through 2028
Table 32: European Market for Electric Vehicle Batteries, by Type of Material, Through 2028
Table 33: Asia-Pacific Market for Electric Vehicle Batteries, by Country, Through 2028
Table 34: Asia-Pacific Market for Electric Vehicle Batteries, by Type of Battery, Through 2028
Table 35: Asia-Pacific Market for Electric Vehicle Batteries, by Type of Propulsion, Through 2028
Table 36: Asia-Pacific Market for Electric Vehicle Batteries, by Type of Vehicle, Through 2028
Table 37: Asia-Pacific Market for Electric Vehicle Batteries, by Bonding Method, Through 2028
Table 38: Asia-Pacific Market for Electric Vehicle Batteries, by Battery Capacity, Through 2028
Table 39: Asia-Pacific Market for Electric Vehicle Batteries, by Battery Form, Through 2028
Table 40: Asia-Pacific Market for Electric Vehicle Batteries, by Type of Material, Through 2028
Table 41: Rest of the World Market for Electric Vehicle Batteries, by Subregion, Through 2028
Table 42: Rest of the World Market for Electric Vehicle Batteries, by Type of Battery, Through 2028
Table 43: Rest of the World Market for Electric Vehicle Batteries, by Type of Propulsion, Through 2028
Table 44: Rest of the World Market for Electric Vehicle Batteries, by Type of Vehicle, Through 2028
Table 45: Rest of the World Market for Electric Vehicle Batteries, by Bonding Method, Through 2028
Table 46: Rest of the World Market for Electric Vehicle Batteries, by Battery Capacity, Through 2028
Table 47: Rest of the World Market for Electric Vehicle Batteries, by Battery Form, Through 2028
Table 48: Rest of the World Market for Electric Vehicle Batteries, by Type of Material, Through 2028
Table 49: Environmental Factors for the Electric Vehicle Battery Industry
Table 50: Social Factors for the Electric Vehicle Battery Industry
Table 51: Governance Factors for the Electric Vehicle Battery Industry
Table 52: ESG Score for the Market for Electric Vehicle Batteries
Table 53: Completed Goals of ESG by EnerSys
Table 54: LG Chem’s Five Key Sustainability Tasks
Table 55: M&A Deals, Global Market for Electric Vehicle Batteries, January 2021-March 2023
Table 56: Start-up Funding in Market for Electric Vehicle Batteries, January 2022-April 2023
Table 57: Agreements in the Market for Electric Vehicle Batteries, March 2022-May 2023
Table 58: Partnerships in the Market for Electric Vehicle Batteries, January 2022-April 2023
Table 59: Product Launch Strategies in the Market for Electric Vehicle Batteries, January 2022-April 2023
Table 60: Company Expansion Strategies in the Market for Electric Vehicle Batteries, March 2022-May 2023
Table 61: Investments in the Market for Electric Vehicle Batteries, July 2022-May 2023
Table 62: BYD Co. Ltd.: Recent Developments, 2021 and 2022
Table 63: BYD Co. Ltd.: Electric Vehicle Batteries Product Portfolio
Table 64: Contemporary Amperex Technology Co. Ltd.: Recent Developments, 2023
Table 65: Contemporary Amperex Technology Co. Ltd.: Electric Vehicle Batteries Product Portfolio
Table 66: China Aviation Lithium Battery Technology Co. Ltd.: Recent Developments, 2023
Table 67: China Aviation Lithium Battery Technology Co. Ltd.: Electric Vehicle Batteries Product Portfolio
Table 68: Clarios: Recent Developments, 2022
Table 69: Clarios: Electric Vehicle Batteries Product Portfolio
Table 70: EnerSys: Annual Revenue, 2021 and 2022
Table 71: EnerSys: Recent Developments, 2022
Table 72: EnerSys: Electric Vehicle Batteries Product Portfolio
Table 73: Envision Aesc Group Ltd.: Recent Developments, 2022
Table 74: Envision Aesc Group Ltd.: Electric Vehicle Batteries Product Portfolio
Table 75: LG Chem: Annual Revenue, 2021 and 2022
Table 76: LG Chem: Recent Developments, 2023
Table 77: LG Chem: Electric Vehicle Batteries Product Portfolio
Table 78: Mitsubishi Corp.: Annual Revenue, 2021 and 2022
Table 79: Mitsubishi Corp.: Recent Developments, 2022 and 2023
Table 80: Mitsubishi Corp.: Electric Vehicle Batteries Product Portfolio
Table 81: MOLICEL: Recent Developments, 2022
Table 82: MOLICEL: Electric Vehicle Batteries Product Portfolio
Table 83: Panasonic Holdings Corp.: Annual Revenue, 2021 and 2022
Table 84: Panasonic Holdings Corp.: Recent Developments, 2022 and 2023
Table 85: Panasonic Holdings Corp.: Electric Vehicle Batteries Product Portfolio
Table 86: Samsung SDI Co. Ltd.: Annual Revenue, 2021 and 2022
Table 87: Samsung SDI Co. Ltd.: Recent Developments, 2022 and 2023
Table 88: Samsung SDI Co. Ltd.: Electric Vehicle Batteries Product Portfolio
Table 89: SK on Co. Ltd.: Recent Developments, 2022 and 2023
Table 90: SK On Co. Ltd.: Electric Vehicle Batteries Product Portfolio
Table 91: Toshiba Corp.: Annual Revenue, 2021 and 2022
Table 92: Toshiba Corp.: Recent Developments, 2022 and 2023
Table 93: Toshiba Corp.: Electric Vehicle Batteries Product Portfolio
Table 94: Vehicle Energy Japan Inc.: Recent Developments, 2022 and 2023
Table 95: Vehicle Energy Japan Inc.: Electric Vehicle Batteries Product Portfolio
Table 96: Primearth EV Energy Co. Ltd.: Electric Vehicle Batteries Product Portfolio
Table 97: Acronyms and Abbreviations Used in This Report

List of Figures
Summary Figure: Global Market Shares of Electric Vehicle Batteries, by Region, 2022
Figure A: Top-Down and Bottom-Up Approaches to the Global Market for Electric Vehicle Batteries
Figure 1: Evolution of Electric Vehicle Batteries
Figure 2: Value Chain for EV Battery Market
Figure 3: Porter's Five Forces Model for Market for Electric Vehicle Batteries
Figure 4: Market Drivers for Electric Vehicle Batteries
Figure 5: Market Restraints for Electric Vehicle Batteries
Figure 6: Market Challenges for Electric Vehicle Batteries
Figure 7: Opportunities in the Market for Electrical Vehicle Batteries
Figure 8: Global Market Shares of Electric Vehicle Batteries, by Type of Battery, 2022
Figure 9: Global Market Shares of Electric Vehicle Batteries, by Type of Battery, 2028
Figure 10: Advantages of Solid-State Batteries
Figure 11: Benefits of Sodium-Ion Batteries
Figure 12: Global Market Shares of Electric Vehicle Batteries, by Type of Propulsion, 2022
Figure 13: Global Market Shares of Electric Vehicle Batteries, by Type of Propulsion, 2028
Figure 14: Key Components of a Battery Electric Vehicle (BEV)
Figure 15: Function of Key Components of Battery Electric Vehicle (BEV)
Figure 16: Key Components of a Hybrid Electric Vehicle (HEV)
Figure 17: Functions of Key Components of a Hybrid Electric Vehicle (HEV)
Figure 18: Key Components of a Plug-in Hybrid Electric Vehicle (PHEV)
Figure 19: Functions of Key Components of a Plug-in Hybrid Electric Car (PHEV)
Figure 20: Key Components of a Fuel Cell Electric Vehicle (FCEV)
Figure 21: Functions of Key Components of a Fuel Cell Electric Vehicle (FCEV)
Figure 22: Global Market Shares of Electric Vehicle Batteries, by Type of Vehicle, 2022
Figure 23: Global Market Shares of Electric Vehicle Batteries, by Type of Vehicle, 2028
Figure 24: EV Passenger Car Market Drivers
Figure 25: Electric Bus Market Drivers
Figure 26: Electric Scooter Market Drivers
Figure 27: Global Market Shares of Electric Vehicle Batteries by Bonding Method, 2022
Figure 28: Global Market Shares of Electric Vehicle Batteries, by Bonding Method, 2028
Figure 29: Global Market Shares of Electric Vehicle Batteries, by Battery Capacity, 2022
Figure 30: Global Market Shares of Electric Vehicle Batteries, by Battery Capacity, 2028
Figure 31: Global Market Shares of Electric Vehicle Batteries by Battery Form, 2022
Figure 32: Global Market Shares of Electric Vehicle Batteries, by Battery Form, 2028
Figure 33: Global Market Shares of Electric Vehicle Batteries, by Type of Material, 2022
Figure 34: Global Market Shares of Electric Vehicle Batteries, by Type of Material, 2028
Figure 35: Global Market Shares of Electric Vehicle Batteries, by Region, 2022
Figure 36: Global Market Shares of Electric Vehicle Batteries, by Region, 2028
Figure 37: North American Market Shares of Electric Vehicle Batteries, by Country, 2022
Figure 38: North American Market Shares of Electric Vehicle Batteries, by Country, 2028
Figure 39: North American Market Shares of Electric Vehicle Batteries, by Type of Battery, 2022
Figure 40: North American Market Shares of Electric Vehicle Batteries, by Type of Battery, 2028
Figure 41: North American Market Shares of Electric Vehicle Batteries, by Type of Propulsion, 2022
Figure 42: North American Market Shares of Electric Vehicle Batteries, by Type of Propulsion, 2028
Figure 43: North American Market Shares of Electric Vehicle Batteries, by Type of Vehicle, 2022
Figure 44: North American Market Shares of Electric Vehicle Batteries, by Type of Vehicle, 2028
Figure 45: North American Market Shares of Electric Vehicle Batteries, by Bonding Method, 2022
Figure 46: North American Market Shares of Electric Vehicle Batteries, by Bonding Method, 2028
Figure 47: North American Market Shares of Electric Vehicle Batteries, by Battery Capacity, 2022
Figure 48: North American Market Shares of Electric Vehicle Batteries, by Battery Capacity, 2028
Figure 49: North American Market Shares of Electric Vehicle Batteries, by Battery Form, 2022
Figure 50: North American Market Shares of Electric Vehicle Batteries, by Battery Form, 2028
Figure 51: North American Market Shares of Electric Vehicle Batteries, by Type of Material, 2022
Figure 52: North American Market Shares of Electric Vehicle Batteries, by Type of Material, 2028
Figure 53: European Market Shares of Electric Vehicle Batteries, by Country, 2022
Figure 54: European Market Shares of Electric Vehicle Batteries, by Country, 2028
Figure 55: European Market Shares of Electric Vehicle Batteries, by Type of Battery, 2022
Figure 56: European Market Shares of Electric Vehicle Batteries, by Type of Battery, 2028
Figure 57: European Market Shares of Electric Vehicle Batteries, by Type of Propulsion, 2022
Figure 58: European Market Shares of Electric Vehicle Batteries, by Type of Propulsion, 2028
Figure 59: European Market Shares of Electric Vehicle Batteries, by Type of Vehicle, 2022
Figure 60: European Market Shares of Electric Vehicle Batteries, by Type of Vehicle, 2028
Figure 61: European Market Shares of Electric Vehicle Batteries, by Bonding Method, 2022
Figure 62: European Market Shares of Electric Vehicle Batteries, by Bonding Method, 2028
Figure 63: European Market Shares of Electric Vehicle Batteries, by Battery Capacity, 2022
Figure 64: European Market Shares of Electric Vehicle Batteries, by Battery Capacity, 2028
Figure 65: European Market Shares of Electric Vehicle Batteries, by Battery Form, 2022
Figure 66: European Market Shares of Electric Vehicle Batteries, by Battery Form, 2028
Figure 67: European Market Shares of Electric Vehicle Batteries, by Type of Material, 2022
Figure 68: European Market Shares of Electric Vehicle Batteries, by Type of Material, 2028
Figure 69: Asia-Pacific Market Shares of Electric Vehicle Batteries, by Country, 2022
Figure 70: Asia-Pacific Market Shares of Electric Vehicle Batteries, by Country, 2028
Figure 71: Asia-Pacific Market Shares of Electric Vehicle Batteries, by Type of Battery, 2022
Figure 72: Asia-Pacific Market Shares of Electric Vehicle Batteries, by Type of Battery, 2028
Figure 73: Asia-Pacific Market Shares of Electric Vehicle Batteries, by Type of Propulsion, 2022
Figure 74: Asia-Pacific Market Shares of Electric Vehicle Batteries, by Type of Propulsion, 2028
Figure 75: Asia-Pacific Market Shares of Electric Vehicle Batteries, by Type of Vehicle, 2022
Figure 76: Asia-Pacific Market Shares of Electric Vehicle Batteries, by Type of Vehicle, 2028
Figure 77: Asia-Pacific Market Shares of Electric Vehicle Batteries, by Bonding Method, 2022
Figure 78: Asia-Pacific Market Shares of Electric Vehicle Batteries, by Bonding Method, 2028
Figure 79: Asia-Pacific Market Shares of Electric Vehicle Batteries, by Battery Capacity, 2022
Figure 80: Asia-Pacific Market Shares of Electric Vehicle Batteries, by Battery Capacity, 2028
Figure 81: Asia-Pacific Market Shares of Electric Vehicle Batteries, by Battery Form, 2022
Figure 82: Asia-Pacific Market Shares of Electric Vehicle Batteries, by Battery Form, 2028
Figure 83: Asia-Pacific Market Shares of Electric Vehicle Batteries by Type of Material, 2022
Figure 84: Asia-Pacific Market Shares of Electric Vehicle Batteries, by Type of Material, 2028
Figure 85: Rest of the World Market Shares of Electric Vehicle Batteries, by Subregion, 2022
Figure 86: Rest of the World Market Shares of Electric Vehicle Batteries, by Subregion, 2028
Figure 87: Rest of the World Market Shares of Electric Vehicle Batteries, by Type of Battery, 2022
Figure 88: Rest of the World Market Shares of Electric Vehicle Batteries, by Type of Battery, 2028
Figure 89: Rest of the World Market Shares of Electric Vehicle Batteries, by Type of Propulsion, 2022
Figure 90: Rest of the World Market Shares of Electric Vehicle Batteries, by Type of Propulsion, 2028
Figure 91: Rest of the World Market Shares of Electric Vehicle Batteries, by Type of Vehicle, 2022
Figure 92: Rest of the World Market Shares of Electric Vehicle Batteries, by Type of Vehicle, 2028
Figure 93: Rest of the World Market Shares of Electric Vehicle Batteries, by Bonding Method, 2022
Figure 94: Rest of the World Market Shares of Electric Vehicle Batteries, by Bonding Method, 2028
Figure 95: Rest of the World Market Shares of Electric Vehicle Batteries, by Battery Capacity, 2022
Figure 96: Rest of the World Market Shares of Electric Vehicle Batteries, by Battery Capacity, 2028
Figure 97: Rest of the World Market Shares of Electric Vehicle Batteries, by Battery Form, 2022
Figure 98: Rest of the World Market Shares of Electric Vehicle Batteries, by Battery Form, 2028
Figure 99: Rest of the World Market Shares of Electric Vehicle Batteries, by Type of Material, 2022
Figure 100: Rest of the World Market Shares of Electric Vehicle Batteries, by Type of Material, 2028
Figure 101: Factors in the Linkage between Electric Vehicle Batteries and ESG
Figure 102: Current Trends in the Market for Electric Vehicle Batteries
Figure 103: Product Life Cycle of Battery Technology
Figure 104: Emerging Trends in the Market for Electric Vehicle Batteries
Figure 105: Share of Patents Issued on Electric Vehicle Batteries Technology, by Company, 2022
Figure 106: Distribution Share of M&A in Electric Vehicle Batteries, by Region, 2021-2023
Figure 107: Start-up Funding in Electric Vehicle Batteries, by Amount Raised, 2022 and 2023
Figure 108: Distribution Share of Start-up Funding Amount, by Various Rounds, 2022 and 2023
Figure 109: Global Market Shares of Electric Vehicle Batteries, by Company, 2022
Figure 110: Share of Strategies Used in the Market for Electric Vehicle Batteries, 2022
Figure 111: BYD Co. Ltd.: Revenue Share, by Business Unit, 2021
Figure 112: BYD Co. Ltd.: Revenue Share, by Region, 2021
Figure 113: Contemporary Amperex Technology Co. Ltd.: Revenue Share, by Business Unit, 2022
Figure 114: Contemporary Amperex Technology Co. Ltd.: Revenue Share, by Region, 2022
Figure 115: EnerSys: Annual Revenue, 2021 and 2022
Figure 116: EnerSys: Revenue Share, by Business Unit, 2022
Figure 117: LG Chem: Annual Revenue, 2021 and 2022
Figure 118: LG Chem: Revenue Share, by Business Unit, 2022
Figure 119: LG Chem: Revenue Share, by Region, 2022
Figure 120: Mitsubishi Corp.: Annual Revenue, 2021 and 2022
Figure 121: Mitsubishi Corp.: Revenue Share, by Business Unit, 2022
Figure 122: Mitsubishi Corp.: Revenue Share, by Region/Country, 2022
Figure 123: Panasonic Holdings Corp.: Annual Revenue, 2021 and 2022
Figure 124: Panasonic Holdings Corp.: Revenue Share, by Business Unit, 2022
Figure 125: Panasonic Holdings Corp.: Revenue Share, by Region/Country, 2022
Figure 126: Samsung SDI Co. Ltd.: Annual Revenue, 2021 and 2022
Figure 127: Samsung SDI Co. Ltd.: Revenue Share, by Business Unit, 2022
Figure 128: Samsung SDI Co. Ltd.: Revenue Share, by Region/Country, 2022
Figure 129: Toshiba Corp.: Annual Revenue, 2021 and 2022
Figure 130: Toshiba Corp.: Revenue Share, by Business Unit, 2022
Figure 131: Toshiba Corp.: Revenue Share, by Region/Country, 2022

Executive Summary

Due to their high energy density by weight, lithium-ion and lithium-polymer batteries are the most prevalent battery types in modern electric vehicles. Nickel-cadmium, nickel-metal hydride, lead-acid (and, less frequently, zinc-air and sodium nickel chloride) batteries are also used in electric vehicles. The quantity of energy stored in batteries is expressed in ampere-hours or coulombs, with the overall amount of energy frequently expressed in kilowatt-hours.

Consumer electronics, laptop computers, mobile phones, and power tools have driven innovations in lithium-ion battery equipment. These performance and energy density advancements have benefited the BEV and HEV markets. Unlike previous battery chemistries, particularly that of nickel-cadmium, the chemistry of lithium-ion batteries enables them to be discharged and recharged regularly and at any level of charge.

As the market for electric vehicles increases, the supply of second-life batteries increases. Forecasts from university studies and trade reports approximate a range of 112-275 GWh per year of second-life batteries becoming accessible by 2030 globally. After 8 to 12 years in a vehicle, the lithium batteries utilized in EVs are expected to hold more than two-thirds of their operational energy storage. Changing their condition, used EV batteries can serve an additional 5-8 years of service in a secondary application.

The capability of a battery to preserve and quickly discharge electricity degrades with use. Constant consumption of the maximum storage capacity of the battery, rapid charge and discharge cycles, and exposure to high temperatures are all likely to reduce battery performance.

Given the light-duty cycles suffered by EV batteries, some modules with minimal degradation and absent defects or damage could likely be refurbished and reused immediately as a substitute for the exact model vehicle. Leading car manufacturers, including Nissan and Tesla, have suggested rebuilding or refurbishing battery packs for buying or warranty replacement of original battery packs in EVs. The economics of second-life battery storage also depends on the cost of the repurposed system competing with new battery storage. To be used as stationary storage, used batteries must undergo numerous processes that are presently costly and time intensive.

The COVID-19 outbreak and the Russia-Ukraine war have disrupted global supply chains, particularly in the automotive industry. Soon, delays in EV delivery to clients may stifle sales growth in some countries. However, in the long run, government and business efforts to electrify transportation are laying a solid foundation for future EV sales growth.

Companies Mentioned

  • Byd Co. Ltd.
  • Contemporary Amperex Technology Ltd. (Catl)
  • China Lithium Battery Technology Co. Ltd. (Calb)
  • Clariosno
  • Enersys
  • Envision Automotive Energy Supply Corp. (Aesc)
  • Lg Chem
  • Mitsubishi Corp.
  • Molicel
  • Panasonic Holdings Corp.
  • Samsung Sdi Co. Ltd.
  • Sk on Co. Ltd.
  • Toshiba Corp.
  • Vehicle Energy Japan Inc.
  • Primearth Ev Energy Co. Ltd.

Table Information

Report AttributeDetails
No. of Pages302
PublishedAugust 2023
Forecast Period2023 - 2028
Estimated Market Value ( USD ) in 2023 $ 66.4 Billion
Forecasted Market Value ( USD ) by 2028 $ 161.3 Billion
Compound Annual Growth Rate19.4%
Regions CoveredGlobal
No. of Companies Mentioned15

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