Lithium Ion Battery Market Report and Patent Landscape Analysis – 2025

Lithium Ion Battery Market
Emerging Market Trends and Market Opportunities
Industry Analysis and Outlook
Technological Innovations and Market Growth
Patent Landscape Analysis
Patent Insights, Patent Filing Trends, Key Patents
Market Drivers and Forecaste
Innovation Scene and Strategies
  • The global market for Li-ion battery has been recorded $37.40 billion in 2018 which is projected to become $105.92 billion in 2025 with the CAGR of 16.03 percent
  • Toyota Group holds the most extensive patent portfolio in Li-ion battery technology with 3,840 IP assets
  • The highest revenue is expected for the energy grid and storage industry to reach up to $XX billion in 2025 with the CAGR of XX percent
  • The market for electric vehicles (EVs) is rising at a significant rate in China, North America, and Europe

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Lithium Ion Battery Market Report and Patent Landscape Analysis – 2025 by Industry (Energy Grid and Storage, Consumer, Automotive, Industrial and others), by Material Types ( Cathode, anode, electrolytic solution, and others), by Regional Segmentation (APAC, North America, Europe, and Rest of World (RoW)), by Patent Activities (Active Patent Players, Technical Analysis Of Patent Landscape, Patent Licensing, Academic and Corporate Collaborations), Global Forecast – 2025

Executive Summary – Lithium Ion Battery Market Report

This Lithium Ion Battery Market Report states that the market for lithium ion battery is developing at a substantial pace and is not expected to become saturated during the forecasted period from 2019 to 2025. The extensive R&D on Li-ion battery is being conducted worldwide for the last couple of decades, but significant investment is being made towards devising innovative solutions to use the technology in a variety of industries including energy grid and storage, consumer, automotive, industrial, defense, marine, aerospace, medical and more. This shift towards Li-ion batteries is becoming possible due to their constantly increasing affordability and performance.

The global market for Li-ion battery has been recorded at $xx billion in 2018 which is projected to become $xx billion in 2025 with the CAGR of xx percent. A double-digit growth is observed by very rare technology where almost every day a new disruptive technology outperforms another.

This well-established global market for Li – ion battery exists because of its extensive use in diverse applications. From powering large-scale grids to powering compact smartwatches, Li-ion batteries are considered as the first choice. Rising demand of electric vehicles, increasing usage of portable electronic devices, growing concept of the Internet of Things, high requirement for battery-operated equipment and automation; and government support for sustainable energies are some of the major factors which are expected to drive the future market for Li-ion battery. EVs have been developed as both passengers as well as industrial vehicles. All the EVs currently are based on Li-ion batteries. The increasing penetration of EVs in transport is expected to create a significant demand for enormous volumes of li-ion batteries, turning it into a commodity as crucial as oil. Established auto players like Audi and Mercedes are developing all -electric SUVs which is further inspiring consumer confidence in the technology’s performance.

What You Get in the Report

Report Insights + 1 year access to an on-line IP Intelligence Dashboard
Analysis By Material Type, Industry, Region
Patent Landscape Analysis
Global Market Forecast
Online access to an IP dashboard with full details of the patent data behind the report.

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Market Overview

Industry Market Analysis

Lithium Ion Battery Market Report includes the industry segments for global Lithium ion battery market classified as energy grid and storage, consumer, automotive, industrial, and others. Declining battery prices, improving energy storage ability, and future demand expected from the grid and renewable energy storage industry will bring an ocean of opportunities for global Li-ion battery market. Lithium battery-based storage systems can promote renewable initiatives such as wind and solar, by controlling these energy sources ‘variability and improving reliability to produce on-demand power. Energy grid and storage industry holds the largest market share with highest predicted CAGR of xx percent among other industry types. Companies such as Tesla Inc. and Dynegy Inc. have already begun plugging lithium-ion batteries into the grid.

Top players in the global Lithium ion battery market are BYD Company Ltd., LG Chem Ltd., Panasonic Corporation, Samsung SDI Co. Ltd., and GS Yuasa Corporation. BYD has recently invested $xx billion in setting up a new Gigafactory at Chongqing, China which is expected to have an annual capacity of xx GWh. BYD will now have five megafactories in its pipeline. LG Chem is also investing significantly to expand its production capacity to xx GWh yearly by 2020.

Regional Market Analysis

The regional classification for Lithium Ion battery market is done for APAC, North America, Europe, and RoW. APAC is the clear dominating region for Li-ion battery with China being the most active country in the world. United States of America (USA), Canada, Japan, India, Korea, United Kingdom (UK), Germany, France, Argentina, Bolivia, and Chile are the most important countries associated with the global supply chain of Li-ion batteries. This report covers major lithium reserves and lithium processing firms across the world. Australia, Chile, Argentina, China, and Zimbabwe. Among these, Australia and Chile together contribute to more than xx percent of global lithium supply. Chile is the country with largest known lithium reserves of xx million metric tons.

Material Market Analysis

Cathode, anode, electrolytic solution, and others are the categories segmented by material types used in the manufacturing of Li-ion batteries. The major share in the global market is held by cathode material which has xx percent of market share and highest projected CAGR of xx.x percent from 2018 to 2025. The cathode material type is further segmented into five most common types: lithium cobalt oxide (LCO), lithium nickel manganese cobalt oxide (NMC), lithium iron phosphate (LFP), lithium manganese oxide (LMO), and lithium nickel cobalt aluminum oxide (NCA). Among these, NMC cathode material is expected to have the highest CAGR of more than xx percent in the forecasted period which may lead NMC to gain largest market share of xx percent in 2025. Lithium-ion battery prices have reduced as manufacturing volumes amplified. Producers have gained significant experience in manufacturing batteries for consumer electronics, which has been implemented in design modifications that have driven cost reductions to the benefit of EV packs. Manufacturers are continuously working toward improving the cost and performance of these batteries to make EVs’ performance at par with ICE counterparts.
Solid-state Li-ion, Li-sulfur, Li-air, Li-polymer, induction/ wireless charging, and Wi-Fi charging are some of the new innovations that have been derived from Li-ion battery technology. These new technologies are expected to rise exponentially in the global markets due to increase in the demand of their respective applications.

Lithium Ion Battery Patent Landscape Analysis.

Lithium ion battery market report also uncovers the patent aspects related to the Li-ion battery technology. xx,xxx extended patent families are taken under relevancy scope from the global patent database with priority filing date on or after January 1, 2013. Presented patent landscape provides insights over CPC classifications, activity trend, grant timelines, current focus areas, R&D market, innovation centers, and investment goldmines related to Li-ion battery technology. In addition, top xx key inventors, assignees, and owners are also mentioned with the respective information of their contribution to the technology. Most of the R&D activity in Li-ion battery technology is taking place in Japan with xxxx patents having Japan as the priority country. In Europe, Germany has the greatest number of patent filings as priority country. Companies like Asahi Kasei Corp, Zeon Corp., and S.K. Innovation are making significant strides in the

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Table of Content

About Ahead Intel (Page no.-15)

Disclaimer (Page no.-16)

Executive Summary (Page no.-17)

1. Introduction (Page no.-20)

1.1 Reasons For The Study

1.2 Study Goals And Objectives

1.3 Scope Of The Report

1.4 Methodology And Information Sources

1.5 Intended Audience

2. Technology Landscape (Page no.-23)

2.1 Introduction To Li-Ion Semiconductor Batteries s

2.2 Invention Timeline Of Li-Ion Semiconductor Batteries

2.3 Working Of Li-Ion Semiconductor Batteries

2.4 Cell Shapes Of Li-Ion Semiconductor Batteries

3. Business Landscape And Forecast (Page no.-29)

3.1 Industry Outlook

3.1.1 Market Segments By Material Type

3.1.2 Market Segments By End-User Industry

3.1.3 Market Sub-Segments By The Consumer Industry

3.1.4 Market Segments By Cathode Material Type

3.1.5 Market Segments By Region

3.2 Global Market Forecast

3.3 Market Drivers

3.3.1 Rising Demand For Electric Vehicles

3.3.2 Increasing Usage Of Portable Electronic Devices

3.3.3 The Growing Concept Of The Internet Of Things (IoT)

3.3.4 High Requirement For Battery-Operated Equipment And Automation

Government Support For Sustainable Renewable Energies

3.4 Market Restraints

3.4.1 Safety And High Protection For Lithium-Ion Batteries

3.4.2 High Cost And Transportation Issues

3.5 Market Opportunities

3.5.1 Declining Prices With An Increased Energy Storage Capacity

3.5.2 Upcoming Growth For The Grid And Renewable Energy Storage

3.6 Challenges

3.6.1 Overheating Problem

3.6.2 New Emerging Technologies

3.6.3 Heavyweight And Low Energy Storage Discourage Adoption In Vehicles

3.7 Porter’s Five Forces Analysis

3.8 Major Lithium Explorers

3.9 Lithium Reserves And Battery Component Market

3.9.1 Lithium Reserves

3.9.2 Cathodes

3.9.3 Anodes

3.9.4 Electrolytic Solution

3.9.5 Separator

3.10 Market Segmentation By Material Type

3.10.1 Cathode

3.10.2 Anode

3.10.3 Electrolytic Solution

3.10.4 Others

3.11 Market Segmentation By Industry

3.11.1 Market Overview And Forecast

3.11.2 Energy Grid And Storage

3.11.3 Consumer Electronics Automotive

3.11.4 Industrial

3.11.5 Others

3.12 Market Segmentation By Region

3.12.1 Overview And Forecast

3.12.1 Asia-Pacific (APAC): Overview And Forecast

3.12.1 North America: Overview And Forecast

3.12.1 Europe: Overview And Forecast

3.12.1 Rest Of World (RoW): Overview And Forecast

4. Competitive Landscape (Page no.-134)

4.1 Value Chain Analysis

4.2 Major Players .

4.3 Latest Innovations

4.4 Venture Capital

5. Active Companies (Page no.-143)

5.1 BYD Company Ltd.

5.2 LG Chem Ltd.

5.3 Panasonic Corporation.

5.4 Samsung SDI Co. Ltd.

5.5 GS Yuasa Corporation

5.6 Hitachi Chemical Co. Ltd.

5.7 Toshiba Corporation

5.8 A123 Systems Llc.

5.9 Johnson Controls International PLC.

5.10 Contemporary Amperex Technology Co. Ltd.

5.11 SK Innovation Co. Ltd.

5.12 Tesla Inc.

5.13 eCobalt Solutions, Inc

5.14 Amara Raja Batteries Ltd.

5.15 Saft Groupe S.A

5.16 Shenzhen BAK Battery Co. Ltd

6. Innovation Landscape (Page no.-184)

6.1 Introduction

6.2 Search Strategy

6.3 Categories And Cpc Classification

6.4 How Is The Innovation Activity Trend?

6.5 What Are The Key Grant Timelines?

6.6 Who Are The Leading Players?

6.6.1 Who Is Making Substantial Investment In The Technology?

6.6.2 Who Are The Key Inventors In The Domain?

6.6.3 Are There Collaboration Networks

6.7 Which Are The Current Technological Focus Areas?

6.7.1 Which Electrode Material Is Gaining Momentum?

6.7.2 Which End User Industry Will Drive R&D Market?

6.7.3 Which Are The Key Geographies For Setting Up Innovation Centers?

6.7.4 Which Geographies Are Touted As Investment Goldmines?

7. Appendix (Page no.-216)

7.1 Acronyms And Abbreviations

7.2 Analyst Profile

Table of Tables

Table 1: Timeline for development of Li-ion semiconductor battery

Table 2: Global cost of Li-ion battery, 2010 to 2030

Table 3: Global Li-ion battery revenue forecast, 2018-2025 (in $ billion)

Table 4: Major lithium reserve across the globe

Table 5: Major contributors for Li-ion battery cathodes

Table 6: Major contributors for Li-ion battery anodes

Table 7: Major contributor for Li-ion battery electrolytic solution

Table 8: Major contributors for Li-ion battery separators

Table 9: Global Li-ion battery segmentation, by material type, 2018-2025 (in $ billion)

Table 10: Cathode materials according to parameters

Table 11: Global Li-ion battery segmentation, by cathode type, 2018-2025 (in $ billion)

Table 12: Global cathode material market for Li-ion battery, by region 2018-2025 (in $ billion)

Table 13: Global anode material market for Li-ion battery, by region 2018-2025 (in $ billion)

Table 14: Global electrolytic solution market for Li-ion battery, by region 2018-2025 (in $ billion)

Table 15: Global other materials market for Li-ion battery, by region 2018-2025 (in $ billion)

Table 16: Global Li-ion battery segmentation, by industry, 2018-2025 (in $ billion)

Table 17: Energy grid and storage markets for Li-ion battery, by region 2018-2025 (in $ billion)

Table 18: Consumer electronics market for Li-ion battery, by region 2018-2025 (in $ billion)

Table 19: Consumer electronics markets for Li-ion battery, by region 2018-2025 (in $ billion)

Table 20: Global Li-ion battery segmentation, by consumer electronics industry, 2018-2025 (in $ billion)

Table 21: Light Duty EV stock by geographic segments (in millions), 2017

Table 22: Reduction in battery cost with next generation batteries

Table 23: Global lithium-ion battery annual production capacity to cross 800 GWh by 2025

Table 24: Automotive markets for Li-ion battery, by region 2018-2025 (in $ billion)

Table 25: Industrial markets for Li-ion battery, by region 2018-2025 (in $ billion)

Table 26: Others industry markets for Li-ion battery, by region 2018-2025 (In $ billion)

Table 27: market segmentation by region

Table 28: Global Li-ion battery segmentation, by region, 2018-2025 (in $ billion)

Table 29: APAC markets for Li-ion battery, by industry, 2018-2025 (in $ billion)

Table 30: North America markets for Li-ion battery, by industry, 2018-2025 (in $ billion)

Table 31: Europe markets for Li-ion battery, by industry, 2018-2025 (in $ billion)

Table 32: RoW markets for Li-ion battery, by industry, 2018-2015 (in $ billion)

Table 33: Key companies with a commercial interest in Li-ion battery

Table 34: Grant timelines in Li-ion battery landscape

Table 35: Heat map of top 20 patent owners with electrode materials

Table 36: Heat map of top 20 patent owners with end user industry

Table 37: Patent categories for Li-ion battery technology landscape

Table 38: Patent categories for Li-ion battery technology landscape, by cathode material

Table 39: Heat map of top 20 patent assignees with electrode materials

Table 40: Global Li-ion battery patenting trends based on electrode material vs separator type (2013-2019)

Table 41: Global Li-ion battery patenting trends based on electrode material vs electrolyte state(2013-2019)

Table 42: Global Li-ion battery patenting trends based on electrode material vs shape (2013-2019)

Table 43: Patent categories for Li-ion battery technology landscape, by end user industry

Table 44: Li-ion battery technology patent portfolio of top 20 assignees, by end user industry

Table 45: Global Li-ion battery patenting trends based on end user industry vs electrode material(2013-2019)

Table 46: Global Li-ion battery patenting trends based on end user industry vs shape (2013-2019)

Table of Figures

Figure 1: Graphical representation for Li-ion battery segmentation by Material type

Figure 2: Graphical representation for Li-ion battery segmentation by industry

Figure 3: Graphical representation for Li-ion battery segmentation by the consumer industry

Figure 4: Graphical representation for Li-ion battery segmentation by cathode material type

Figure 5: Graphical representation for Li-ion battery segmentation by region

Figure 6: Global average price per Li-ion battery pack

Figure 7: Global Li-ion battery revenue forecast, 2018-2025 (in $ billion)

Figure 8: Porter’s five forces analysis for Li-ion battery

Figure 9: Global map of major lithium reserves

Figure 10: Global map for cathode production

Figure 11: Global map for anode production

Figure 12: Global map for electrolytic solution production

Figure 13: Global map for separator production

Figure 14: Global Li-ion battery segmentation, by material type, 2018-2025 (in $ billion)

Figure 15: Global Li-ion battery share, by material type, 2018 (percentage)

Figure 16: Global Li-ion battery share, by material type, 2015 (percentage)

Figure 17: Global Li-ion battery segmentation, by cathode type, 2018-2025 (in $ billion)

Figure 18: Global Li-ion battery share, by cathode type, 2018 (percentage)

Figure 19: Global Li-ion battery share, by cathode type, 2018 (percentage)

Figure 20: Global cathode material market for Li-ion battery, by region 2018-2025 (in $ billion)

Figure 21: Global cathode material market share for Li-ion battery, by region 2018 (percentage)

Figure 22: Global cathode material market share for Li-ion battery, by region 2025 (percentage)

Figure 23: Global anode material market for Li-ion battery, by region 2018-2025 (in $ billion)

Figure 24: Global anode material market share for Li-ion battery, by region 2018 (percentage)

Figure 25: Global anode material market share for Li-ion battery, by region 2025 (percentage)

Figure 26: Global electrolytic solution market for Li-ion battery, by region 2018-2025 (in $ billion)

Figure 27: Global electrolytic solution market share for Li-ion battery, by region 2018 (percentage)

Figure 28: Global electrolytic solution market share for Li-ion battery, by region 2025 (percentage)

Figure 29: Global other materials market for Li-ion battery, by region 2018-2025 (in $ billion)

Figure 30: Global other materials market share for Li-ion battery, by region 2018 (percentage)

Figure 31: Global other materials market share for Li-ion battery, by region 2025 (percentage)

Figure 32: Global Li-ion battery segmentation, by industry, 2018-2025 (in $ billion)

Figure 33: Global Li-ion battery share, by industry, 2018 (percentage)

Figure 34: Global Li-ion battery share, by industry, 2025 (percentage)

Figure 35: Global demand for Li-ion storage battery (in GWh) 80

Figure 36: Energy grid and storage markets for Li-ion battery, by region 2018-2025 (in $ billion)

Figure 37: Energy grid and storage market share for Li-ion battery, by region, 2018 (percentage)

Figure 38: Energy grid and storage market share for Li-ion battery, by region, 2025 (percentage)

Figure 39: Global Li-ion battery demand for consumer electronics industry (in GWh)

Figure 40: Consumer electronics markets for Li-ion battery, by region 2018-2025 (in $ billion)

Figure 41: Consumer market share for Li-ion battery, by region, 2018 (percentage)

Figure 42: Consumer market share for Li-ion battery, by region, 2025 (percentage)

Figure 43: Global Li-ion battery segmentation, by consumer electronics industry, 2018-2025 (in $billion)

Figure 44: Global Li-ion battery share, by consumer industry, 2018 (percentage)

Figure 45: Global Li-ion battery share, by consumer industry, 2025 (percentage)

Figure 46: Global stock of light duty EV (in million)

Figure 47: More than 45 percent of the global electric car fleet is in APAC

Figure 48: Global Li-ion battery demand for EV (in GWh)

Figure 49: Global cost ratio for Li-ion battery with EV (percentage)

Figure 50: Automotive markets for Li-ion battery, by region 2018-2025 (in $ billion)

Figure 51: Automotive market share for Li-ion battery, by region, 2018 (percentage)

Figure 52: Automotive market share for Li-ion battery, by region, 2025 (percentage)

Figure 53: Industrial markets for Li-ion battery, by region 2018-2025 (in $ billion)

Figure 54: Industrial market share for Li-ion battery, by region, 2018 (percentage)

Figure 55: Industrial market share for Li-ion battery, by region, 2025 (percentage)

Figure 56: Others industry markets for Li-ion battery, by region 2018-2025 (In $ billion)

Figure 57: Others industry market share for Li-ion battery, by region, 2018 (percentage)

Figure 58: Others industry market share for Li-ion battery, by region, 2025 (percentage)

Figure 59: Global Li-ion battery segmentation, by region, 2018-2025 (in $ billion)

Figure 60: Global Li-ion battery share, by region, 2018 (percentage)

Figure 61: Global Li-ion battery share, by region, 2025 (percentage)

Figure 62: APAC markets for Li-ion battery, by industry, 2018-2025 (in $ billion)

Figure 63: APAC market share for Li-ion battery, industry, 2018 (percentage)

Figure 64: APAC market share for Li-ion battery, industry, 2025 (percentage)

Figure 65: North America markets for Li-ion battery, by industry, 2018-2025 (in $ billion)

Figure 66: North America market share for Li-ion battery, by industry, 2018 (percentage)

Figure 67: North America market share for Li-ion battery, by industry, 2025 (percentage)

Figure 68: Europe markets for Li-ion battery, by industry, 2018-2025 (in $ billion)

Figure 69: Europe market share for Li-ion battery, by industry, 2018 (percentage)

Figure 70: Europe market share for Li-ion battery, by industry, 2018 (percentage)

Figure 71: RoW markets for Li-ion battery, by industry, 2018-2015 (in $ billion)

Figure 72: RoW market share for Li-ion battery, by industry, 2018 (percentage)

Analyst Review

The Li-ion semiconductor battery research study aims at analyzing the current market dynamics and prospective future developments to present an accurate business and patent landscape for the technology. Lithium ion battery market report focuses on industry popular Li-ion batteries including their technology, market, and patent landscapes. The Li-ion battery market is further segmented by material types cathode, anode, electrolytic solution, and others; by industry energy grid and storage, consumer, automotive, industrial, and others; and by region APAC, North America, Europe, and RoW. The report forecasts the sizes and trends of the global market as well as its sub-segments for the period 2018 to 2025. The report focuses on critical market segments to identify the key market and technology trends. Market driving factors and constraints have been considered to estimate global Li-ion battery market potential. Patent trends have been presented in detail to understand the research and development activities happening around the world over the years.This market report will also present a competitive landscape focusing on active players in the industry, growth strategies, strategic imperatives and detailed profiling of critical companies.

Li-ion battery is the best technology to shift worldwide focus from conventional energy use to new energy utilization. Current Li-ion battery chemistries such as lithium cobalt oxide, lithium nickel manganese cobalt oxide, lithium iron phosphate, lithium manganese oxide, lithium nickel cobalt aluminum oxide, and lithium titanate oxide have saturated the global market. New emerging technologies such as solid-state, lithium-sulfur, lithium-air, and lithium-polymer batteries holds large space in research and development fields that resulted in building great potential for these technologies. It is expected that these new technologies may substitute mainstream Li-ion batteries in many applications.

Being one of the promised technologies of the century, Li-ion battery market experiences large movements in venture capital space across the world which is expected to increase further due to the prediction of high demand for the same. In geographies, APAC region holds the largest market share as well as highest CAGR which makes it the most promising market in future. Followed by APAC, Europe holds the second highest predicted growth for the forecasted period. In countries, USA and China have the major market share of global Li-ion battery technology. The markets of Korea and Japan are also increasing with high pace. LG Chem, Samsung SDI, and Panasonic Corporation are the market giants in global Li-ion markets.

The Li-ion battery patent landscape presents that H01M CPC classification has the major filings in past seven years. This classification category relates to processes or means, for example, batteries, for the direct conversion of chemical energy into electrical energy. In the future, Y02E classification category which relates to reduction of greenhouse gas emissions is predicted to witness increase in the patent filings.

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Companies Profiled

List of companies profiled in the report.

  • Byd Company Ltd.
  • Lg Chem Ltd.
  • Panasonic Corporation.
  • Samsung Sdi Co. Ltd.
  • Hitachi Chemical Co. Ltd.
  • Gs Yuasa Corporation
  • Toshiba Corporation
  • A123 Systems Llc.
  • Johnson Controls International Plc.
  • Contemporary Amperex Technology Co. Ltd.
  • Sk Innovation Co. LtdTesla Inc.
  • Tesla Inc.
  • Ecobalt Solutions, Inc.
  • Amara Raja Batteries Ltd.
  • Saft Groupe S.A
  • Shenzhen Bak Battery Co. Ltd.

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