Strategic Analysis of Future Battery Chemistries for Electric Vehicles in Europe and North America

Strategic Analysis of Future Battery Chemistries for Electric Vehicles in Europe and North America

Li-S to Emerge as a Top Alternative to Li-ion Post 2020

RELEASE DATE
18-Dec-2014
REGION
North America
Research Code: MA77-01-00-00-00
SKU: AU01135-NA-MR_17328

$3,950.00

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SKU
AU01135-NA-MR_17328

$3,950.00

$2,962.50 save 25 %

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Description

This strategic insight covers the adoption of different battery chemistries and their types by electric vehicle (EV) manufacturers over the next 10–15 years. Although a number of alternative chemistries in EV batteries are emerging, the most probable candidates have been identified as lithium sulfur, zinc air, and lithium air. The study analyses current and future developments in the mentioned technologies and offers an overview of ongoing research projects on EV batteries. Also included are a market introduction roadmap, a technology roadmap, adoption by OEM, and crucial developments in the lithium ion technology, including discussion of battery recycling and storage. The base year used for analysis is 2014 and forecast span 2015 to 2020.

Table of Contents

Key Findings

Executive Summary—Electric Propulsion Technology

Future Battery Chemistries

Current vs. Future Status

Market Introduction Roadmap

Comparative Analysis

Comparative Analysis (continued)

Adoption Level of Different Battery Types

Current and Future Battery Requirements

Impact on OEMs and Manufacturers

Li-ion Battery Capacity Analysis

Research Scope

Research Aim and Objectives

Key Questions this Study will Answer

Research Background

Research Methodology

Electric Vehicle Segmentation

Electric Propulsion Technology

Overview of Global Powertrain Market

EV Sales

Li-ion Battery Capacity Analysis

Market Overview

Properties of Li-ion Batteries

Current vs. Future Scenario for EVs

Safety Improvement in Li-ion Batteries

Technology Roadmap

Battery Cell Selection Process

Battery Value Chain

Implementation of Nationwide Emissions Standards

Battery Manufacturers’ Global Footprint

Current and Future Battery Requirements

Future Energy Storage

Adoption of Battery Types in EVs

Anode and Cathode Options

Matrix of Technology Suitable by Application

Current vs. Future Status

Comparative Analysis

Challenges and Requirements

Technology Challenges

Drivers

Drivers Explained

Market Restraints

Market Restraints Explained

Zn-air Technology Overview

Safety Measures for Zn-air

Li-S Technology Overview

Safety Measures for Li-S

Li-air Technology Overview

Safety Measures for Li-air

Li-ion Technology Overview

Safety Measures for Li-ion

EV Range and Battery Type

EV Range and Battery Type (continued)

Battery Warranty Overview

Public Interest by OEM

Energy Storage Requirements

Second Life of Batteries Market Overview

Industry Challenges

Tesla Gigafactory

Threats to the Tesla Gigafactory

Tesla Gigafactory

Toyota Case Study

Key Conclusions and Future Outlook

The Last Word—3 Big Predictions

Legal Disclaimer

Vehicle Segmentation

Vehicle Segmentation (continued)

Market Engineering Methodology

Related Research
This strategic insight covers the adoption of different battery chemistries and their types by electric vehicle (EV) manufacturers over the next 10–15 years. Although a number of alternative chemistries in EV batteries are emerging, the most probable candidates have been identified as lithium sulfur, zinc air, and lithium air. The study analyses current and future developments in the mentioned technologies and offers an overview of ongoing research projects on EV batteries. Also included are a market introduction roadmap, a technology roadmap, adoption by OEM, and crucial developments in the lithium ion technology, including discussion of battery recycling and storage. The base year used for analysis is 2014 and forecast span 2015 to 2020.
More Information
No Index Yes
Podcast No
Author Prajyot Sathe
Industries Automotive
WIP Number MA77-01-00-00-00
Is Prebook No