Global Lithium-ion Battery Materials Market Growth Opportunities

Global Lithium-ion Battery Materials Market Growth Opportunities

Technological Advancements Expand the Industry's Growth Pipeline

RELEASE DATE
23-Aug-2023
REGION
Global
Research Code: PEB2-01-00-00-00
SKU: CM_2023_101
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Description

The worldwide demand for batteries is on the rise, primarily propelled by the urgency to combat climate change through mobility electrification and energy transition. In addition, significant growth in consumer electronics, such as wearables and Bluetooth earphones, will further propel the Lithium-ion (Li-ion) battery materials market. The move from fossil fuels to renewable energy sources, such as solar and wind, drives demand growth for energy storage solutions with high-density and efficient storage capabilities to meet peak demand and intermittent energy generation intervals.

Developed markets in North America, Europe, and East Asian countries, such as Japan, South Korea, and Taiwan, are the major drivers of the residential and utility battery energy storage systems (BESS) markets, as governments incentivize the adoption of these systems to decarbonize the grid. The need for technological advancements to combat challenges, such as energy density, cost, and sustainability, will attract large investments in the battery material market. Lithium-ion batteries dominate the energy storage landscape for mobile electronic devices and electromobility. However, the market strives for improvement in several aspects: Cost-effectiveness, safety, longevity, energy density, and recyclability.

Batteries are complex products with many different parts, requiring a wide range of materials in construction. This study focuses on 6 key components: Cathode materials, anode materials, electrolytes, separators, binders, and adhesives & sealants.

China dominates almost every tier in the value chain of battery materials. In addition, the mining and processing of materials is highly concentrated in a few regions, which endangers the supply chain. Countries across the world are making efforts to diversify and secure the supply chain. In the last 2 years, there has been a notable increase in the emergence of new start-ups and capacity expansions. Competition is expected to intensify in the coming years due to the focus on securing the supply chain and enhancing market position.

The study aims to determine how market trends, such as advancements in battery chemistries and technologies, increased sales of electric vehicles, evolving regulatory scenarios, and the increasing shift in consumer preferences toward electric vehicles, will impact the demand for specific materials between 2022 and 2029. It analyzes the consumption of considered Li-ion battery materials based on 4 key applications that are consumer electronics, electric vehicles, industrial & ESS (energy storage systems), and others (medical and healthcare devices, portable tools, and electric bikes), and 4 key regions of the Americas, Europe, Asia-Pacific (APAC), and Middle East, Africa, and Southern Asia (MEASA).

Table of Contents

Why Is It Increasingly Difficult to Grow?

The Strategic Imperative 8™

The Impact of the Top 3 Strategic Imperatives on the Li-ion Battery Materials Industry

Growth Opportunities Fuel the Growth Pipeline Engine™

Key Findings

Technology Roadmap

Scope of Analysis

Geographic Scope

Segmentation

Segmentation (continued)

Market Definitions

Market Definitions (continued)

Market Definitions (continued)

Market Definitions (continued)

Key Competitors

Growth Metrics

Value Chain

Value Chain Analysis

Growth Drivers

Growth Driver Analysis

Growth Driver Analysis (continued)

Growth Driver Analysis (continued)

Growth Driver Analysis (continued)

Growth Restraints

Growth Restraint Analysis

Growth Restraint Analysis (continued)

Growth Restraint Analysis (continued)

Growth Restraint Analysis (continued)

Forecast Assumptions

Revenue and Volume Forecast

Revenue and Volume Forecast Analysis

Revenue Forecast by Product

Revenue and Volume Forecast Analysis by Product

Revenue Forecast by Region

Revenue and Volume Forecast Analysis by Region

Procurement and Criticality of Raw Materials

Revenue Forecast by Application

Revenue and Volume Forecast Analysis by Application

Pricing Trends and Forecast

Pricing Trends and Forecast Analysis

Competitive Environment

Revenue Share

Characteristics and Overview

Growth Metrics

Characteristics Comparison

Application Presence and Material Selection Criteria

Revenue and Volume Forecast

Forecast Analysis

Volume Forecast by Chemistry

Forecast Analysis by Chemistry

Forecast Analysis by Chemistry (continued)

Pricing Trends and Forecast

Pricing Trends and Forecast Analysis

Pricing Trends and Forecast Analysis (continued)

Future Cathode Materials and Potential Impact

Future Cathode Materials and Potential Impact (continued)

Future Cathode Materials and Potential Impact (continued)

Characteristics and Overview

Growth Metrics

Revenue and Volume Forecast

Characteristics Comparison

Volume Forecast by Chemistry

Forecast Analysis

Forecast Analysis (continued)

Pricing Trends and Forecast

Pricing Trends and Forecast Analysis

Pricing Trends and Forecast Analysis (continued)

Characteristics and Overview

Growth Metrics

Materials Overview

Revenue and Volume Forecast

Volume Forecast by Chemistry

Forecast Analysis

Solid-state Electrolytes

Solid-state Electrolytes (continued)

Solid-state Batteries Announcements

Pricing Trends and Forecast

Pricing Trends and Forecast Analysis

Characteristics and Overview

Wet and Dry Process Separators Comparison

Wet Process and Dry Process Flow

Growth Metrics

Revenue and Volume Forecast

Volume Forecast by Process

Forecast Analysis

Pricing Trends and Forecast

Pricing Trends and Forecast Analysis

Characteristics and Overview

Definition and Characteristics

Materials and Composition

Growth Metrics

Revenue and Volume Forecast

Volume Forecast by Chemistry

Forecast Analysis

Pricing Trends and Forecast

Pricing Trends and Forecast Analysis

Characteristics and Overview

Characteristics and Overview (continued)

Growth Metrics

Revenue and Volume Forecast

Volume Forecast by Application

Forecast Analysis

Pricing Trends and Forecast

Pricing Trends and Forecast Analysis

Growth Opportunity 1: Changing Government Regulations

Growth Opportunity 1: Changing Government Regulations (continued)

Growth Opportunity 2: Long-term Strategic Partnerships

Growth Opportunity 2: Long-term Strategic Partnerships (continued)

Growth Opportunity 3: Development of State-of-the-art Technologies

Growth Opportunity 3: Development of State-of-the-art Technologies (continued)

Your Next Steps

Why Frost, Why Now?

List of Exhibits

List of Exhibits (continued)

List of Exhibits (continued)

List of Exhibits (continued)

Legal Disclaimer

The worldwide demand for batteries is on the rise, primarily propelled by the urgency to combat climate change through mobility electrification and energy transition. In addition, significant growth in consumer electronics, such as wearables and Bluetooth earphones, will further propel the Lithium-ion (Li-ion) battery materials market. The move from fossil fuels to renewable energy sources, such as solar and wind, drives demand growth for energy storage solutions with high-density and efficient storage capabilities to meet peak demand and intermittent energy generation intervals. Developed markets in North America, Europe, and East Asian countries, such as Japan, South Korea, and Taiwan, are the major drivers of the residential and utility battery energy storage systems (BESS) markets, as governments incentivize the adoption of these systems to decarbonize the grid. The need for technological advancements to combat challenges, such as energy density, cost, and sustainability, will attract large investments in the battery material market. Lithium-ion batteries dominate the energy storage landscape for mobile electronic devices and electromobility. However, the market strives for improvement in several aspects: Cost-effectiveness, safety, longevity, energy density, and recyclability. Batteries are complex products with many different parts, requiring a wide range of materials in construction. This study focuses on 6 key components: Cathode materials, anode materials, electrolytes, separators, binders, and adhesives & sealants. China dominates almost every tier in the value chain of battery materials. In addition, the mining and processing of materials is highly concentrated in a few regions, which endangers the supply chain. Countries across the world are making efforts to diversify and secure the supply chain. In the last 2 years, there has been a notable increase in the emergence of new start-ups and capacity expansions. Competition is expected to intensify in the coming years due to the focus on securing the supply chain and enhancing market position. The study aims to determine how market trends, such as advancements in battery chemistries and technologies, increased sales of electric vehicles, evolving regulatory scenarios, and the increasing shift in consumer preferences toward electric vehicles, will impact the demand for specific materials between 2022 and 2029. It analyzes the consumption of considered Li-ion battery materials based on 4 key applications that are consumer electronics, electric vehicles, industrial & ESS (energy storage systems), and others (medical and healthcare devices, portable tools, and electric bikes), and 4 key regions of the Americas, Europe, Asia-Pacific (APAC), and Middle East, Africa, and Southern Asia (MEASA).
More Information
Author Kishan Waghela
Industries Chemicals and Materials
No Index No
Is Prebook No
Keyword 1 Lithium Ion Battery Industry
Keyword 2 Industrial Lithium Ion Battery
Keyword 3 Lithium Battery Industry
Podcast No
Predecessor MG10-01-00-00-00
WIP Number PEB2-01-00-00-00