Lithium-Ion Battery Market Size & Share Analysis - Growth Trends By Forecast Period

Lithium-Ion Battery Market Key Players and Forecast Insights Through 2032

The latest ""Lithium-Ion Battery Market"" Insight Report for 2024 offers a comprehensive analysis of the industry's key contributions, marketing strategies, and recent advancements by leading companies. This report provides a succinct overview of both historical and current performance metrics for major market players. It employs various analytical methods to deliver precise insights into the Lithium-Ion Battery Market, with coverage across regions including North America, Europe, Asia Pacific, and more. The recent analysis also includes an in-depth review of the business strategies adopted by emerging industry players, along with detailed information on market segments, geographic coverage, product trends, and cost structures.

What are the growth projections for the Lithium-Ion Battery Market?

According to Straits Research, the global Lithium-Ion Battery Market  size was valued at USD 56.43 billion in 2023. It is projected to reach from USD 66.38 billion in 2024 to USD 240.90 billion by 2032, growing at a CAGR of 17.5% during the forecast period (2024–2032).

Get Free Request Sample Report @ https://straitsresearch.com/report/lithium-ion-battery-market/request-sample

Top Competitive Players of Lithium-Ion Battery Market

GS Yuasa Corporation Ltd

BYD Company Ltd

A123 Systems, LLC

Hitachi, Ltd

Huayu New Energy Technology Co., Ltd

Johnson Controls

NEC Corporation

Panasonic Corporation

Samsung SDI Co., Ltd

Toshiba Corporation

LG Chem Ltd

What are the key trends within each segment of the Lithium-Ion Battery Market?

By Product

Lithium cobalt oxide (LCO)

Lithium iron phosphate (LFP)

Lithium Nickel Cobalt Aluminum Oxide (NCA)

Lithium Manganese Oxide (LMO)

Lithium Titanate (LTO)

Lithium Nickel Manganese Cobalt

By Material

Cathode material

Anode material

Electrolyte material

Separator material

Current collector material

Other materials

By Product Type

Components of lithium-ion batteries

Portability

By Capacity

Below 3,000 mAh

3,001 – 10,000 mAh

10,001 – 60,000 mAh

Above 60,000 mAh

By Voltage

Low

Medium

High

By Application

Consumer Electronics

Automotive

Aerospace

Marine

Medical

Industrial

Power

Telecommunications

View the full report and table of contents here: https://straitsresearch.com/report/lithium-ion-battery-market/toc

The report forecasts revenue growth at all geographic levels and provides an in-depth analysis of the latest industry trends and development patterns from 2022 to 2030 in each of the segments and sub-segments. Some of the major geographies included in the market are given below:

North America (U.S., Canada)

Europe (U.K., Germany, France, Italy)

Asia Pacific (China, India, Japan, Singapore, Malaysia)

Latin America (Brazil, Mexico)

Middle East & Africa

This Report is available for purchase on Buy Lithium-Ion Battery Market Report

Key Highlights

Provide a detailed explanation of various aspects including introduction, product types and applications, market overview, country-specific market analysis, opportunities, risks, and driving forces.

Examine manufacturers, including their profiles, primary business activities, recent news, sales and pricing, revenue, and market share.

Offer an overview of the competitive landscape, detailing sales, revenue, and market share among leading global manufacturers.

Present a detailed market breakdown by type and application, including sales, pricing, revenue, market share, and growth rates.

Analyze key regions—North America, Europe, Asia Pacific, the Middle East, and South America—covering sales, revenue, and market share segmented by manufacturers, types, and applications.

Investigate production costs, essential raw materials, and production methods.

Reasons to Buy:

In-depth analysis of market segmentation.

Country-specific insights alongside global demand and supply dynamics.

Examination of key players, including their products, financial performance, and strategies.

Insights into emerging market trends, opportunities, and challenges.

About Us:

StraitsResearch.com is a leading research and intelligence organization, specializing in research, analytics, and advisory services along with providing business insights & research reports.

Contact Us: Email: [email protected] Address: 825 3rd Avenue, New York, NY, USA, 10022 Tel: +1 6464807505, +44 203 318 2846

LTO 60Ah M6 6kW 14.6V-16.2V Battery Kit

Unveiling the LTO 60Ah M6 6kW Battery Kit: The Future of Energy Storage

What is the LTO 60Ah M6 6kW Battery Kit?

The LTO (Lithium Titanate Oxide) 60Ah M6 Battery Kit is a robust energy storage solution that offers a voltage range of 14.6V to 16.2V, with a peak power output of 6kW. Its advanced technology makes it suitable for various applications, from residential energy storage to commercial use.

Key Features

High Capacity: With a capacity of 60Ah, this battery provides substantial energy storage, ensuring that you have power when you need it most.

Long Cycle Life: LTO batteries can withstand an impressive number of charge and discharge cycles, making them a long-term investment for energy needs.

Fast Charging: This battery kit supports rapid charging, allowing users to quickly replenish their energy supply.

Wide Operating Temperature Range: Designed to function effectively in extreme conditions, the LTO 60Ah M6 can operate in various environments without performance degradation.

Safety: The LTO technology minimizes the risk of thermal runaway, making it one of the safest battery options on the market.

Benefits of Using the LTO 60Ah M6 Battery Kit

1. Reliable Energy Storage

The LTO 60Ah M6 is ideal for storing energy from renewable sources, such as solar panels and wind turbines. This allows users to maximize their energy efficiency by using stored energy during peak demand times.

2. Cost-Effective Over Time

Although the upfront cost may be higher compared to traditional batteries, the long lifespan and durability of LTO technology��lead to lower overall costs in the long run.

3. Eco-Friendly Solution

With its long cycle life and minimal environmental impact, the LTO 60Ah M6 aligns with sustainable practices, contributing to a cleaner energy future.

4. Versatile Applications

This battery kit can be utilized in a variety of settings, including residential homes, commercial buildings, and electric vehicles, providing flexible energy solutions.

Potential Applications

Home Energy Storage: Store excess solar energy for use during the night or on cloudy days, enhancing energy independence.

Backup Power Systems: Ensure critical systems remain operational during power outages with a reliable backup solution.

Electric Vehicles: Provide a high-performance energy source for electric cars, improving their range and efficiency.

Industrial Applications: Power tools and equipment in industrial settings, ensuring consistent and reliable energy supply.

Conclusion

The LTO 60Ah M6 6kW Battery Kit is a powerful and efficient energy storage solution that stands out in the evolving landscape of energy technologies. Its high capacity, long cycle life, and safety features make it an excellent choice for anyone looking to invest in a reliable power source.

Whether you are a homeowner wanting to enhance your energy efficiency, a business owner seeking reliable backup power, or an innovator in electric vehicles, the LTO 60Ah M6 battery kit is a worthy consideration.

Embrace the future of energy storage with this cutting-edge solution and join the movement toward a sustainable energy landscape!

Contact

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1585 Beverly CT, Unit 121, Auror

How Redway Revolutionizing Clean Energy with Lithium-Ion Battery Innovations

In the realm of renewable energy, the significance of lithium-ion batteries cannot be overstated. As the world shifts towards cleaner energy solutions, Redway emerges as a standout player, spearheading innovation in lithium-ion battery technology. With a commitment to sustainability and cutting-edge research, Redway has solidified its position as a premier energy conglomerate.

At the heart of Redway’s success lies its unwavering focus on lithium-ion battery products tailored specifically for clean energy solutions. These batteries serve as the cornerstone of renewable energy systems, powering everything from electric vehicles to grid-scale energy storage. Redway’s dedication to advancing this technology is evident through its five state-of-the-art production facilities strategically located across the globe.

These production facilities not only ensure efficiency and scalability but also underscore Redway’s commitment to meeting the growing demand for clean energy solutions. With a global footprint, Redway is well-equipped to serve diverse markets and support initiatives aimed at reducing carbon emissions.

Furthermore, Redway’s dedication to innovation is exemplified by its dedicated Research and Development (R&D) Center. This center serves as a hub for breakthrough discoveries and technological advancements in lithium-ion battery technology. Here, a team of experts works tirelessly to push the boundaries of what is possible, exploring new materials, manufacturing processes, and energy storage solutions.

Through relentless research and innovation, Redway continuously enhances the performance, reliability, and sustainability of its lithium-ion batteries. This commitment to excellence has earned Redway a commanding position within the industry, setting the standard for clean energy solutions worldwide.

One of the key strengths of Redway lies in its ability to tailor lithium-ion battery products to meet the specific needs of its customers. Whether it’s optimizing battery performance for electric vehicles, enhancing energy storage capabilities for residential or commercial applications, or integrating smart technology for grid management, Redway delivers solutions that exceed expectations.

Moreover, Redway’s commitment to sustainability extends beyond its products. The company prioritizes environmentally friendly manufacturing processes and works diligently to minimize its carbon footprint throughout the entire supply chain. By embracing sustainable practices, Redway not only reduces its environmental impact but also sets an example for others in the industry to follow.

In addition to its focus on sustainability, Redway places a strong emphasis on quality and reliability. Each lithium-ion battery undergoes rigorous testing and quality control measures to ensure optimum performance and longevity. This dedication to quality has earned Redway the trust and confidence of customers worldwide, further solidifying its position as a leader in the clean energy sector.

Looking ahead, Redway remains committed to driving innovation and sustainability in lithium-ion battery technology. The company continues to invest in research and development, exploring new avenues for improvement and staying ahead of emerging trends in the renewable energy industry.

When comparing lithium-ion batteries, Lithium Titanate Battery LTO there’s often discussion around Lithium Polymer Battery vs Lithium ion Battery. What Is Lithium ion Battery? While both have their advantages, Redway’s focus remains on optimizing lithium-ion technology for clean energy solutions.

Understanding car battery group size is essential for vehicle maintenance. How to Determine Car Battery Group Size Redway ensures its lithium-ion batteries are available in various group sizes to accommodate different automotive applications, prioritizing efficiency and performance.

In the realm of electric vehicles, Tesla Batteries are renowned for their cutting-edge technology and performance. Redway aims to rival this standard by continuously innovating its lithium-ion batteries for electric vehicle applications.

For those delving deeper into battery specifications, understanding the differences between 21701 vs 20700 Battery can be crucial. Redway’s R&D efforts ensure that its lithium-ion batteries are designed to meet the specific requirements of each application, providing optimal performance and reliability.

Series Connections play a vital role in energy storage systems, allowing for increased voltage and capacity. Redway’s lithium-ion batteries are engineered to facilitate seamless series connections, ensuring compatibility and efficiency in various energy storage setups.

We must understand What Are Cold Cranking Amps? Cold Cranking Amps (CCA) are crucial for starting vehicles, especially in cold climates. Redway’s lithium-ion batteries are designed to deliver high CCA ratings, ensuring reliable performance even in adverse weather conditions.

For advanced energy storage applications, Lithium Titanate Battery (LTO) technology offers high power density and fast charging capabilities. Redway continues to explore the potential of LTO batteries, aiming to integrate them into its portfolio of clean energy solutions.

For applications requiring long-term power supply, such as off-grid systems, the 12v 100ah Battery is a popular choice. Redway’s lithium-ion batteries are engineered to deliver long-lasting performance, making them ideal for such applications.

In conclusion, Redway stands out as a premier energy conglomerate dedicated to advancing clean energy solutions through lithium-ion battery technology. With its global presence, state-of-the-art production facilities, and commitment to innovation and sustainability, Redway is poised to shape the future of renewable energy and lead the charge towards a cleaner, more sustainable world.

[Related site1] [Related site2]

What are the most potential new lithium battery materials in the future?

1. Silicon-carbon composite anode material

After the large screen and diversified functions of digital terminal products, new requirements are put forward for the battery life. At present, the gram capacity of lithium battery materials is low, which cannot meet the increasing demand for batteries in terminals.

As a kind of anode material in the future, the theoretical gram capacity of silicon-carbon composite materials is about 4200mAh/g, which is more than 372 times higher than the 10mAh/g of graphite anode.

At present, the important problems of silicon-carbon composites are:

During charging and discharging, the volume expansion can reach 300%, which will lead to the pulverization of silicon material particles, resulting in the loss of material capacity. At the same time, the ability to absorb liquid is poor.

Poor cycle life. At present, the above problems are solved by means of silicon powder nano, silicon carbon coating, doping, etc., and some companies have made some progress.

2. Lithium titanate

In recent years, the domestic enthusiasm for the research and development of lithium titanate is high.

The advantages of lithium titanate are:

It has a long cycle life (up to more than 10000,1 times), is a zero-strain material (volume change is less than <>%), and does not generate SEI films in the traditional sense;

High level of security. Its lithium insertion potential is high, no dendrite is formed, and the thermal stability is extremely high when charging and discharging;

Fast charging possible.

At present, the important factor limiting the use of lithium titanate is that the price is too high, higher than that of traditional graphite, and the gram capacity of lithium titanate is very low, about 170mAh/g. Only by improving the production process and reducing the production cost can the advantages of lithium titanate such as long cycle life and fast charging be put into use. Combined with the market and technology, lithium titanate is more suitable for use in buses and energy storage fields that have no space requirements.

3. Graphene

Since graphene won the Nobel Prize in 2010, it has attracted wide attention from all over the world, especially in China. There has been a boom in graphene research and development in China, which has many excellent properties, such as good light transmittance, excellent electrical conductivity, high thermal conductivity and high mechanical strength.

Potential applications of graphene in lithium-ion batteries are:

as anode material. The gram capacity of graphene is high, and the reversible capacity is about 700mAh/g, which is higher than the capacity of graphite anode. In addition, the good thermal conductivity of graphene ensures its stability in the battery system, and the spacing between graphene sheets is greater than that of graphite, so that lithium ions diffuse smoothly between graphene sheets, which is conducive to improving the power performance of batteries. Due to the immature production process and unstable structure of graphene, there are still some problems in graphene as an anode material, such as low first discharge efficiency, about 65%; Poor cycling performance; The price is higher, which is significantly higher than that of traditional graphite anode.

As a positive and negative electrode additive, it can improve the stability of lithium-ion batteries, extend the cycle life, and add new internal conductivity.

In view of the immaturity, high price and unstable performance of graphene in the current mass production process, graphene will be the first to be used as a positive and negative electrode additive in lithium-ion batteries.

4. Carbon nanotubes

Carbon nanotubes are a kind of carbon material with graphitized structure, which has excellent conductivity, and because of its small depth and short stroke when de-intercalation, it can be used as an anode material for less polarization during large-rate charging and discharging, which can improve the large-rate charge-discharge performance of the battery.

Shortcoming:

When carbon nanotubes are directly used as anode materials for lithium-ion batteries, there are problems such as high irreversible capacity, voltage lag and inconspicuous discharge platform. For example, Ng et al. prepared single-walled carbon nanotubes by simple filtration, and directly used them as anode materials, with a first discharge capacity of 1700mAh/g and a reversible capacity of only 400mAh/g.

Another application of carbon nanotubes in the anode is to combine with other anode materials (graphite, lithium titanate, tin-based, silicon-based, etc.) to improve the electrical properties of other anode materials by using their unique hollow structure, high conductivity and large specific surface area as a carrier.

5. Lithium-rich manganese-based cathode materials

High capacity is one of the development directions of lithium-ion batteries, but the energy density of lithium iron phosphate and lithium nickel-cobalt-manganese oxide is 580Wh/kg and 750Wh/kg in the current cathode materials, both of which are low. The theoretical energy density of lithium-rich manganese base can reach 900Wh/kg, which has become a hot spot for research and development.

The advantages of lithium-rich as a cathode material are:

High energy density and abundant important raw materials

Due to the short development time, there are a number of problems with the lithium-rich manganese base:

The first discharge efficiency is very low, and the material is oxygen in the cycle process, which brings potential safety hazards, poor cycle life, and low rate performance.

At present, the means to solve these problems include coating, acid treatment, doping, pre-cycling, heat treatment, etc. Although lithium-rich manganese base has obvious gram capacity advantages and huge potential, it is limited to slow technological progress, and it will take time for it to be marketed in large quantities.

6. Power nickel-cobalt-lithium manganese oxide material

For a long time, there has been a great controversy about the route of power lithium batteries, so lithium iron phosphate, lithium manganese oxide, ternary materials and other routes have been adopted. The domestic power lithium battery route is dominated by lithium iron phosphate, but with Tesla's popularity around the world, the ternary material route it uses has caused a boom.

Although lithium iron phosphate is safe, its low energy density can not be overcome, and new energy vehicles require longer mileage, so in the long run, materials with higher gram capacity will replace lithium iron phosphate as the next generation of mainstream technology routes.

Lithium nickel-cobalt-manganese oxide ternary materials are most likely to become the mainstream materials for the next generation of power lithium batteries in China. Domestic electric vehicles with ternary routes, such as BAIC E150EV, JAC IEV4, Chery EQ, Weilan, etc., have a great increase in unit weight density compared with lithium-ion iron phosphate batteries.

7. Coat the diaphragm

Separators are critical to the safety of lithium-ion batteries, requiring good electrochemical and thermal stability, as well as high wettability to the electrolyte during repeated charge and discharge.

Coated diaphragm refers to the coating of adhesives such as PVDF or ceramic alumina on the base film. The uses of coated diaphragms are:

1. Improve the heat shrinkage resistance of the diaphragm and prevent the diaphragm from shrinking and causing a large area of short circuit;

2. The thermal conductivity of the coating material is low, which prevents some thermal runaway points in the battery from expanding to form an overall thermal runaway.

8. Ceramic alumina

In the coated separator, the ceramic coated separator is mainly aimed at the power lithium battery system, so its market growth space is larger than that of the glued separator, and the market demand for its core material ceramic alumina will be greatly increased with the rise of ternary power lithium battery.

The purity, particle size and morphology of ceramic alumina used to coat the separator have high requirements, and the products of Japan and South Korea are more mature, but the price is more than twice as expensive as the domestic ones. At present, there are also many companies in China that are developing ceramic alumina, hoping to reduce dependence on imports.

9. High-voltage electrolyte

Increasing the energy density of batteries is one of the trends of lithium-ion batteries, and there are currently two important ways to increase energy density:

One is to increase the charging cut-off voltage of traditional cathode materials, such as increasing the charging voltage of lithium cobalt oxide to 4.35V and 4.4V. However, the method of increasing the charging cut-off voltage is limited, and further increasing the voltage will lead to the collapse of the lithium cobalt oxide structure, which is unstable in nature.

The other is to develop new cathode materials with higher charging and discharging platforms, such as lithium-rich manganese-based, lithium nickel-cobalt oxide, etc.

After the voltage of the cathode material increases, the high-voltage electrolyte to be matched with it, additives play a key role in the high-voltage performance of the electrolyte, which has become the focus of research and development in recent years.

10. Water-based binder

At present, cathode materials mainly use PVDF as a binder, which is dissolved with organic solvents. Organic solvents are also used in the binder system of the negative electrode, such as SBR, CMC, and fluoroolefin polymers. In the process of electrode production, the organic solvent should be dried and volatilized, which not only pollutes the environment, but also endangers the health of employees. The dried and evaporated solvents need to be collected and processed in special freezing equipment, and fluoropolymers and their solvents are expensive, adding to the production cost of lithium-ion batteries.

The 10 Best Solar Generators for Off-Grid Living: Which One Should You Choose?

Introduction

As our world becomes more and more dependent on electricity, having access to a reliable source of power is essential, especially when living off the grid. With the advancements in technology, solar generators have become an appealing option for those who want portable and sustainable energy. In this article, we will introduce you to the ten best solar generators on the market today, and help you choose the one that is best for you.

What is a Solar Generator?

A solar generator is a portable device that captures energy from the sun and stores it in batteries to power your electronic devices and appliances. Unlike traditional generators that rely on fossil fuels, solar generators are eco-friendly and quiet, making them ideal for camping, RVing, and living off the grid. They come in different sizes and output capacities, so it's essential to choose the one that suits your needs.

The Benefits of a Solar Generator

Using a solar generator has several advantages compared to traditional generators. Firstly, they are more environmentally friendly and emit no harmful fumes. Secondly, they are much quieter than gas generators, making them ideal for use in residential areas. Thirdly, solar generators require little maintenance, and the only fuel they need is the sun, which is free. Lastly, solar generators are portable and can provide power to your devices anywhere you go, making them perfect for outdoor enthusiasts.

Factors to Consider When Choosing a Solar Generator

When choosing a solar generator, several factors should be taken into account to ensure that you get the best product for your needs. These factors include the capacity of the generator, the number of output ports, the recharge time, and the weight of the unit. Additionally, you should consider the type of battery used, the durability of the product, and the warranty offered by the manufacturer.

The Top 10 Solar Generators on the Market Today

After extensive research and analysis, we have compiled a list of the ten best solar generators currently available on the market. Our list includes a range of products based on size, power output, and price, to help you choose the one that suits your needs and budget.

Goal Zero Yeti 1400 Lithium Portable Power Station

Anker Powerhouse 200, 213Wh/57600mAh Portable Rechargeable Generator

Jackery Portable Power Station Explorer 1000

Renogy Phoenix Portable Generator All-in-one Solar Kit with Replaceable Battery

Rockpals 250-Watt Portable Generator Rechargeable Lithium Battery Pack Solar Generator

Titan Solar Generator Kit

Bluetti AC200P 2000Wh/2000W Portable Power Station

Nature's Generator 1800W Solar Powered Generator

EF EcoFlow River Max Portable Power Station

Aimtom 300-Watt Portable Power Station

Conclusion

Solar generators are an excellent investment for anyone who wants a sustainable and portable source of power. When choosing a solar generator, consider the factors outlined above and take your needs and budget into account. With so many options on the market, there's a solar generator out there that's perfect for you.

Source: None

Exploring the Future Trends in the Lithium Battery Pack Space 2021–2031

Lithium battery packs are powerful rechargeable battery systems composed of several Li-ion cells. Lithium-ion batteries have emerged as the preferred chemistry for powering electric vehicles, consumer electronics, and industrial applications. During the 2021-2031 decade, the Lithium Battery Pack market is projected to grow significantly. The demand for lithium-ion battery packs is primarily driven by their high energy density and relatively long lifespan compared to other battery technologies such as lead-acid and nickel-cadmium.

The market for lithium-ion battery packs is projected to expand significantly during the 2021-2031 decade, driven by rising consumer demand for electronic devices, such as laptops, smartphones, wearables, and electric vehicles. The increasing demand for electric vehicles is also expected to drive the demand for lithium-ion battery packs over the forecast period. Furthermore, the increasing demand for renewable energy storage solutions and improved performance in residential and commercial applications is likely to fuel the growth of the lithium-ion battery pack market.

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Key Companies Profiled

Panasonic Corporation

2. BYD Company Limited

3. Samsung SDI Co., Ltd.

4. LG Chem Ltd.

5. Ultralife Corporation

6. A123 Systems LLC.

7. Johnson Controls, Inc.

8. Exide Technologies

9. Farasis Energy, Inc.

10. Hitachi Chemical Co., Ltd.

Competitive Landscape

Prominent manufacturers are emphasizing on launching advanced battery packs equipped with high-grade conducting material, besides relying on such initiatives as strategic collaborations, acquisitions and capacity expansion measures.

In March 2021, GS Yuasa International Limited won the Toyota Technology and Development award for lithium-ion battery for hybrid vehicles.

In November 2018, Johnson Controls and Toshiba Corporation joined hands to deliver low-voltage lithium-ion solutions to increase the efficiency of the same.

In December 2019, LG Chem Ltd., a leading li ion battery pack player, collaborated with General Motors (GM) to produce li ion batteries for its electric vehicles.

Key Segments Covered

Product Type

Lithium Cobalt Oxide Battery Pack

Lithium Magnesium Oxide Battery Pack

Lithium Iron Phosphate Battery Pack

Lithium Nickle Manganese Cobalt Oxide Battery Pack

Lithium Nickle Cobalt Aluminium Oxide Battery Pack

Lithium Titanate Battery Pack

Cell Type

Cylindrical

Prismatic

Pouch

Nominal Voltage

Less than 12V

12V

24V

More than 24V

Battery Capacity

>20 kWh

30-60 kWh

60-80 kWh

More than 80 kWh

End Use

Automotive Li-Ion Battery Pack

BEV

PHEV

HEV

Consumer Electronics Li-Ion Battery Pack

Laptops

Digital Camera

AIDC

Others

Medical Devices

Industrial & Grid Energy

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Questionnaire answered in the Market outlook Report of Li-ion battery market include:

What is the key strategy deployed by large players to maximize Li-ion battery market growth?

What are the main challenges faced by players in the Li-ion battery market Demand?

With the advent of technological advancement, how will the Li-ion battery market landscape change over the forecast period?

What does player bring to the table which is unique as a strategy, and is easy to emulate for new investors in the Li-ion battery market size?

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Energy Storage Lithium-ion Batteries Market Growing Popularity and Emerging Trends in the Industry

Latest Report Available at Advance Market Analytics, “Energy Storage Lithium-ion Batteries Market” provides pin-point analysis for changing competitive dynamics and a forward looking perspective on different factors driving or restraining industry growth. The global Energy Storage Lithium-ion Batteries market focuses on encompassing major statistical evidence for the Energy Storage Lithium-ion Batteries industry as it offers our readers a value addition on guiding them in encountering the obstacles surrounding the market. A comprehensive addition of several factors such as global distribution, manufacturers, market size, and market factors that affect the global contributions are reported in the study. In addition the Energy Storage Lithium-ion Batteries study also shifts its attention with an in-depth competitive landscape, defined growth opportunities, market share coupled with product type and applications, key companies responsible for the production, and utilized strategies are also marked. Some key players in the global Energy Storage Lithium-ion Batteries market are

Tesla (United States)

Panasonic (Japan)

LG (South Korea)

Samsung SDI (South Korea)

CATL (China)

BYD (China)

Grepow (United States)

Automotive Energy Supply Corporation (Japan)

LG Chem (South Korea)

Amperex Technology Limited (Hong Kong) A lithium-ion battery, frequently acknowledged as a Li-ion battery, is a rechargeable battery in which lithium ions journey from the poor electrode to the fantastic electrode with the aid of an electrolyte in the course of discharge and then lower back once more in the course of charging. The high quality electrode of a lithium-ion battery is made of an intercalated lithium compound, whilst the bad electrode is generally made of graphite. Lithium-ion batteries have a excessive power density, little reminiscence impact (with the exception of LFP cells), and a low self-discharge rate. Cells can be made to emphasise both power or strength density. They can, however, be a security hassle due to the fact they include flammable electrolytes, which can motive explosions and flames if broken or incorrectly charged. Emergency Power Backup or Uninterruptible Power Supply, Reliable Electric & Recreational Vehicle Power, Reliable & Lightweight Marine Performance and Storage of photo voltaic strength are the some makes use of of lithium ion batteries. What's Trending in Market: Rising advancement in technology, effects in growing the production of electric plug-in vehicles

Challenges: Fluctuations in supply and demand share due to enforcement of stringent lockdown measures

Market Growth Drivers: Increasing usage of li-ion batteries in EVs, grid storage

The Global Energy Storage Lithium-ion Batteries Market segments and Market Data Break Downby Type (Lithium Cobalt Oxide, Lithium Iron Phosphate, Lithium Nickel Cobalt Aluminium Oxide, Lithium Manganese Oxide, Lithium Titanate, Lithium Nickel Manganese Cobalt), Category (AA Batteries, AAA Batteries, C Batteries, D Batteries, 12-volt Batteries, 18650 Batteries, 2032 Batteries), Industry (Consumer Electronics, Automotive, Aerospace, Marine, Medical, Industrial, Power, Telecommunication), Component (Anode, Cathode, Electrolytic Solution, Others), Battery (Disposable, Rechargeable) Presented By

AMA Research & Media LLP

Lithium-Ion Battery Market Is Expected to Witness an Incredible Growth by 2028

The report on the Lithium-Ion Battery Market published by Stratview Research covers in depth details associated with the Lithium-Ion Battery Market.

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The Lithium-Ion Battery Market is likely to witness a CAGR of 8.8% during the forecast period. The prime factors that are driving the Lithium-Ion Battery Market is its superior thermal conductivity property leading to its wide usage in a wide array of industries.

Key Players

The following are the key players in the Lithium-Ion Battery Market:

• BYD Company

• LG Chem

• Panasonic Corporation

• Samsung SDI

• BAK Group

• GS Yuasa Corporation

• Hitachi

• Johnson Controls

• Toshiba Corporation

• Lithium Werks

Growth drivers and Market Value:

This report, from Stratview Research, studies Lithium-ion battery market value and growth drivers over the trend period of 2022-27. According to the report -

Lithium-ion battery market is likely to witness an impressive CAGR of 16.1% during the forecast period. The major demand for lithium-ion batteries is mainly driven by the increasing demand for consumer electronic products, which is bolstering the growth of the market.

Segment Analysis:

Based on by Material Type:

Based on the material type, the market is segmented as lithium nickel manganese cobalt oxide, lithium iron phosphate, lithium cobalt oxide, lithium titanate oxide, lithium manganese oxide, and lithium nickel cobalt aluminum oxide. The lithium nickel manganese cobalt oxide segment held the largest share of the market in 2021, and is expected to remain dominant during the forecast period. The higher share of the segment is attributed to the growing demand for lithium nickel manganese cobalt oxide used in batteries of mobile phones, laptops, automotive, tablets, power tools, and electrical storage systems.

Based on Regional:

In terms of regions, Asia-Pacific is estimated to be the largest market for lithium-ion batteries during the forecast period. The Asia-Pacific’s market is expected to expand with a lucrative CAGR owing to the well-established consumer electronics market in the region, especially in China. Further, the demand from the automotive industry in the region will also augment the regional growth. North America and Europe are also expected to offer considerable growth opportunities during the forecast period.

Critical Questions Answered in the Report

What are the key trends in the Lithium-Ion Battery Market?

How the market (and its various sub-segments) has grown in the last five years and what would be the growth rate in the next five years?

What is the impact of COVID-19 on Lithium-Ion Battery Market?

What are the key strategies adopted by the major vendors to lead in the Lithium-Ion Battery Market?

What is the market share of the top vendors?

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Understanding the EV Battery Pack

The Battery Pack in your Electric Vehicle – Why and How?

EV Battery Packs provide an excellent alternative to fossil fuels and are environment-friendly too. No wonder, they have become essential in many applications. The widest use of battery packs has been in the Electric Vehicle (EV) industry which is projected to bring in a paradigm shift in the way we travel.

What is a Battery Pack?

A battery pack is composed of battery modules, each of which is composed of battery cells – the fundamental building block of this green technology. To understand a Battery Pack, we need to understand its building block – the cell.

The Technology

Much of the research on and evolution of the technology that drives battery cells is based on the elements that go into making one such cell.

 According to the International Energy Agency, electric car sales grew by 65% in 2018, and are surging ahead to reach 23 million units in 2030.

 The cell works by separating the lithium ions and electrons from a lithium-metal oxide through an electrolyte during discharge and charge. The commonly used cathode material in a typical cell is made up of Lithium Cobalt, Lithium Manganese Oxide, Lithium Nickel Manganese Cobalt, Lithium Iron Phosphate among others, while the anode is made up of Graphite or Lithium Titanate.

According to the new report from the United Nations Conference on Trade and Development (UNCTAD), the demand for raw materials for electric car batteries is set to rise further. The market for cathode for the most common lithium-ion battery was estimated to reach $58.8 billion in 2024 from $7 billion in 2018. Chile contributes to nearly 58% of Lithium reserves, Democratic Republic of Congo to 50% of Cobalt reserves, China, Brazil and Turkey to 80% of natural Graphite reserves, Australia, Brazil, South Africa and Ukraine to 75% of Manganese reserves. The report has suggested investing in green technologies that depend less on critical battery raw materials.

Until recently, the predominant elements used in EV battery packs were Lithium/Cobalt, but technological advances are finding use for other elements as well such as Lithium/Ferrous Phosphate and Lithium/Titanate to match the growth of the EV market.

Comparative Analysis

Many competing technologies for the composition of a battery cell exist today which need to be understood before knowing how an EV Battery Pack is constructed. The common technologies used are described in https://batteryuniversity.com/article/bu-205-types-of-lithium-ion

Li-ion (Lithium-Cobalt) Battery Cells – They produce 3.6V nominal, a current capacity of 150-200Wh/kg, a charging capacity of 0.7-1C and a life cycle of 500-1000 cycles.

Lithium Ferrous Phosphate Battery Cells – They produce 3.2V, a current of 90-120Wh/kg with a charging capacity of 1C with a life cycle of 2000 cycles.

Lithium Titanate Battery Cells – They produce 2.4V nominal, a current of 50-80Wh/kg with a charging capacity of 1C and a life cycle of 3000-7000 cycles, these are gaining more acceptance today.

Understanding a cell and the construction of a Battery Pack

A Battery Pack is composed of a number of cells arranged in parallel for total voltage rating, and in series for total current rating, of the pack.   

A number of cell holders, based on the number of cells in the battery pack, are arranged in an array of rows and columns for voltage connection in parallel and current connection in series. Two such arrays are placed on the top and bottom of the cells arranged by polarity – this provides stability to the battery pack structure to be able to endure vibration when the EV is driven.

H-type Nickel strips are spot welded on the top and bottom of the array formed with the cells to provide connectivity between the cells, earmarking one column each for the positive and negative terminals. The Battery Management System (BMS) is connected to the array in accordance with the positive or negative terminals, assigning one wiring for the output of the battery pack and one to charge it.

The appearance 

The actual Battery Pack inside the body frame of an EV, along with other components will have additional paddings to sustain any rough ride. The battery pack design varies according to the OEM and its capacity.

MELSS offers complete solutions for testing different parts of an Electric Vehicle (EV) including the Battery Pack, Battery Management Systems and Charging Systems. For more: www.melss.com

Source : www.melss.com

Lithium-Ion Battery Recycling Size, Share & Segment by Raw Material, by End-User, by Form , by Modification type , by Function, by Regions & Global Market Forecast 2022-2028

The Lithium-Ion Battery Recycling Market research provides an analysis of the market, as well as market trends, segments, and regional markets. The report also includes an overview and dynamics section. The total market has also been given from the standpoint of several geographical areas and significant economies in this market. Competitors are highlighted, and market participants are profiled, with company overviews, financial overviews, business strategies, product portfolios, and recent advancements among the qualities.

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The research also includes a qualitative analysis of the factors that are driving and impeding market growth, as well as prospective prospects that could move the industry forward. Revenue, testing numbers, technology, products, and channels are all factors to consider. This comprehensive analysis examines them all, with thorough breakdowns by country and region. The Lithium-Ion Battery Recycling market report contains a unique blend of practical insights and qualitative analysis to assist businesses in achieving long-term success.

MARKET SEGMENTATION:

By Battery Chemistry

Lithium-nickel Manganese Cobalt

Lithium-iron Phosphate

Lithium-manganese Oxide

Lithium-titanate Oxide

Lithium-nickel Cobalt Aluminum Oxide

By Recycling Process

Hydrometallurgical Process

Pyrometallurgy Process

Physical/Mechanical Process

Other

By End-User

Automotive

Marine

Power

Industrial

Others

Competitive Scenario

The Lithium-Ion Battery Recycling market report provides information on the most recent trends. It outlines important market elements, with an emphasis on the leading key player's areas of highest demand, leading regions, and leading applications. It provides both qualitative and quantitative information on the factors, constraints, and opportunities that will shape the market's future growth.

COVID-19 Impact Analysis

COVID-19 have three major effects on the global economy: directly impacting production and demand, causing supply chain and market disruption, and having a financial impact on businesses and financial markets. Our analysts, who are monitoring the situation throughout the world, believe that the market would provide producers with lucrative opportunities following the COVID-19 dilemma. The purpose of the Lithium-Ion Battery Recycling market report is to provide a more detailed representation of the current circumstances, the economic slowdown, and the influence of COVID-19 on the total industry.

 Major Points Covered in the Lithium-Ion Battery Recycling Report

Global market trends, including consumer and manufacturing trends, are examined in depth.

Competitive analysis of industry players, as well as a strategic management overview.

Trends in raw material suppliers, technology providers, and distributors are covered in this overview of supply analysis.

Identifying market opportunities and difficulties in the anticipated term is one of the most important areas of investment.

Key Questions Answered in the Lithium-Ion Battery Recycling Market Report

What are the potential growth opportunities for market across major countries and regions?

Emerging markets provide enormous potential for technological development and adoption. Will the situation remain the same in the next five years?

What are the important development strategies that the big firms are implementing in order to stay competitive in the market?

Which companies do you think will be the most disruptive in the future, and why?

Where will the industry be in the mid- to long-term as a result of the developments in products offered by numerous companies?

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Table Of Contents

 1. Introduction

1.1 Market Definition

1.2 Scope

1.3 Research Assumptions

2. Research Methodology

3. Market Dynamics

3.1 Drivers

3.2 Restraints

3.3 Opportunities

3.4 Challenges

4. Impact Analysis

4.1 COVID 19 Impact Analysis

5. Value Chain Analysis

6. Porter’s 5 Forces Model

7.  PEST Analysis

8. Global Lithium-Ion Battery Recycling Market Segmentation, By Battery Chemistry.

8.1Introduction

8.2 Lithium-Nickel Manganese Cobalt

8.3 Lithium-Iron Phosphate

8.4 Lithium-Manganese Oxide

8.5 Lithium-Titanate Oxide

8.6 Lithium-Nickel Cobalt Aluminum Oxide

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Global Rechargeable Battery Market Opportunities & Forecast (2018-2025)-GMI Research

Global Rechargeable Battery Market by Battery Type (Lead-acid, NiCD, NiMH, Li-ion and Poly Lithium); by Material Type (Nickel- Cadmium, Nickel- Metal Hydride, Lithium-ion, Lithium- Polymer among others); by Application (Electronics, Motor Vehicles and Others); by Industry (Automobile Industry, Telecom Industry among others) and by Geography – Opportunities & Forecast, 2018-2025

A rechargeable battery is an electrical battery that can be charged, as opposed to disposable batteries, which are rejected after use. A rechargeable battery is recharged by putting its terminals on a DC current; they are generally better alternatives as opposed to disposable batteries, as they are cost-efficient in the long term. Different types of rechargeable batteries are available in the market, including Lead-acid batteries, NiCD batteries, NiMH batteries, Li-ion batteries and Poly Lithium batteries. Rechargeable batteries are widely used across industries, namely automobile and telecom.

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The markets for rechargeable batteries have been gaining impetus due to mounting demand from the automotive industry, consumer durables, and electronic industry, among others. In addition, rapid growth  in automotive industry and large-scale availability of different battery sizes and specifications is supporting the growth of the rechargeable battery during the forecast period.. The demand has also been boosted due to an increased use of portable electronic devices like laptops, UPS, Power banks among others; however, the primary deterrent during the forecast period, has been its high cost along with the availability of various substitutes, which often turn out to be fake and thereby short-lived.

The key players operating in the market include Battery Technology Inc., Beckett Energy systems, BYD Company Ltd. , Duracell Inc. , Eagle Picher Technologies, LLC, energizer Holdings, Inc. , E-One Moli Energy Corp., Eveready Industry India Ltd., FDK Corporation, GPB International Limited among others.

The global rechargeable battery market has been segmented based on the battery type, material, application and industry. Based on the battery type, a product comprises of Lead-acid, NiCD, NiMH, Li-ion, poly lithium-Ion battery. This report provides an in-depth global market analysis of rechargeable batteries based on battery type, material, application and industry within  the period from 2018 to 2025. The report highlights some major drivers of growth as well as highlights challenges faced by the participants in the market. Moreover, the research report lends insight into the market size, based on which it forecasts the global trend ahead, analysing minutely the competitive landscape, the major players and their strategies as on 2018.

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Key questions answered in this research report: 1-    At what pace is global rechargeable battery market growing? What will be growth trend in future? 2-    What are the key drivers and challenges in the current market? What will be the impact of drivers and challenges in the future? 3-    What are the regional revenue and forecasts? Which are the major regional revenue pockets for growth in the global rechargeable market? 4-    What are the various application areas and how they are poised to grow?

Market Segmentation By Battery Type •    Lead -acid Batteries •    NiCD Batteries •    NiMH Batteries •    Li-ion Batteries •    Poly Lithium-Ion Battery By Material Type •    Nickel-Cadmium •    Nickel-Metal Hydride •    Lithium-Ion •    Lithium-Polymer •    Other o    Sodium-Nickel Chloride o    Rechargeable Alkaline o    Zincair

By Applications •    Electronics o    Portable Electronics     Portable PC     Cellular Phones     Power Banks (Portable charger)     Others Portable electronics o    Others     UPS     Medical devices     Others •    Motor Vehicle/ Automobile o    Four wheelers o    Two wheelers o    Three-Wheeler (E-Rickshaw)

By Industry Type •    Automobile Industry •    Telecom Industry •    Others By Geography •    North America As a part of customization o    By Battery Type o    By Material Type o    By Application o    By Industry Type o    US o    Canada o    Mexico    

   •    Europe As a part of customization o    By Battery Type o    By Material Type o    By Application o    By Industry Type o    UK o    Germany o    Spain o    Rest of Europe    

     •    Asia-Pacific As a part of customization o    By Battery Type o    By Material Type o    By Application User o    By Industry Type o    China o    Australia o    India o    Rest of APAC    

     •    ROW As a part of customization o    By Battery Type o    By Material Type o    By Application o    By Industry Type o    Brazil o    South Africa o    GCC countries o    Rest of world (remaining countries of the LAMEA region)

Leading market players •    Battery Technology Inc. •     Beckett Energy systems •    BYD Company Ltd. •     Duracell Inc. •     Eagle Picher Technologies •     Energizer Holdings Inc. •     E-One Moli Energy Corp. •     Eveready Industry India Ltd. •    FDK Corporation •     GPB International Limited

*Other prominent players in the market which can be profiled as a part of customization: •    Highpower International Inc. •    Jiangmen TWD Technology Co., Ltd. •    Johnson Controls International Plc •    Maxell Holdings, Ltd. •    Panasonic Corporation

For more details, browse the Table of Contents : https://www.gmiresearch.com/report/global-rechargeable-battery-market.html

Related Report:

Global Lithium-Ion Battery Market by Type (Lithium Nickel Manganese Cobalt, Lithium Iron Phosphate, Lithium Cobalt Oxide, Lithium Titanate Oxide, Lithium Manganese Oxide, Lithium Nickel Cobalt Aluminum Oxide), Industry (Consumer Electronics, Automotive, Aerospace and Defense, Marine, Medical, Industrial and Power) and by Geography – Opportunities & Forecast 2016-2021

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GMI Research leverages its industry expertise and experience to identify the industry trends, big opportunities and potential growth areas across industries. Our Syndicated reports provide actionable insights and covers industry trends, market drivers & restraints, macroeconomics factors, market estimates & forecasts, competitive landscape etc. which helps our clients to strengthen its market position by deploying specific strategies and actions that will lead to higher growth.

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Our clients rely on us for the range of our services to give them the intelligence they need to act decisively. GMI Research offers in-depth market and competitive intelligence solutions by leveraging its industry knowledge and experience to provide accurate insights with a complete picture of the market and competition. To know more about our product offering click on the below link:

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Global Lithium Ion Battery Market Size, Share, Demand and Trend Forecast to 2028

The Global Lithium-Ion Battery Market report published by VynZ Research provides a producer outline by covering industry patterns, the market size by region, and global market size. It focuses on offering detailed information about market potential, trends, opportunities, challenges, restraints, and drivers in the current environment, as well as on-the-ground insights. The historical period is considered as 2016-2021 and the forecasted period is 2022-2028.

The Global Lithium-Ion Battery Market is expected to reach 113.7 billion by 2028, at a CAGR of 12.8% during the forecast period.

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COVID-19 Impact

Flight cancellations, travel bans and quarantines, restaurants closed, all indoor/outdoor events restricted, many countries declared states of emergency, massive supply chain delays, stock market volatility, reduced business confidence, rising anxiety among the population, and economic uncertainty about future. All these have slowed down the growth in the Global Lithium-Ion Battery Market due to the COVID-19 pandemic.

The Global Lithium-Ion Battery Market research report incorporates market goals and degrees over a long period of time by highlighting key market segments and driving players. The Global Lithium-Ion Battery Market focuses on the key global manufacturers and defines, describes, and analyzes sales volume, value, market share, industry landscape, SWOT analysis, and future development plans.

Market Breakdown Analysis

The report is the most comprehensive resource of several types of segmental analyses of the Global Market from various perspectives. The Global Lithium-Ion Battery Market research study is unique and accurate due to analysts' pragmatic approach by studying various market sectors and the top-down and bottom-up techniques used to anticipate market sizes.

Breakdown by:

By Type

Lithium Nickel Manganese Cobalt (Li-NMC)

Lithium Titanate Oxide (LTO)

Lithium Manganese Oxide (LMO),

Lithium Cobalt Oxide (LCO)

Lithium Iron Phosphate (LFP)

Lithium Nickel Cobalt Aluminum Oxide (NCA)

By Power Capacity

0 to 3,000 mAh

3,000 mAh to 10,000 mAh

10,000 mAh to 60,000 mAh

More than 60,000 mAh

By End-User

Consumer Electronics

Automotive

Industrial

Power

Medical

Aerospace and Defense

Marine

Smartphones

Laptops

UPS

Others

Battery Electric Vehicles

Plug-In Hybrid Electric Vehicles

Construction Equipment

Mining Equipment

Competitive Landscape

Aside from segment classification information, the document demonstrates a thorough understanding of competitor positioning, global, local, and regional developments, financial projections, and supply chain offerings. The Global Lithium-Ion Battery Market research offers a comprehensive overview of the industry, including information on the industry chain and applications. A study has been conducted to examine the current market scenario and future growth prospects of the global market.

Top Market Players are:

BAK Group

Panasonic Corporation

Saft Groupe SA

BYD Company Ltd.

Johnson Controls Inc.

GS Yuasa Corporation

LG Chem Ltd.

Samsung SDI Co. Ltd.

Lithium Werks

Hitachi Ltd.

Toshiba Corporation

Valence Technology Inc.

FAQ—

What is the current market size and growth rate of the global market during the forecast period 2022-2028?

What are the current and the future trends in the global market?

What are the prospective growth prospects and restraints faced by the industry players in the market?

What are the recent developments by the industry players in the global market?

Explore more reports by VynZ Research

Global Lithium-Ion Battery Market – Analysis and Forecast (2022-2028)

Global Software Defined Networking (SDN) Market – Analysis and Forecast (2022-2028)

Global Grow Light Market – Analysis and Forecast (2021 – 2027)

Global Electronic Toll Collection Market – Analysis and Forecast (2021-2027)

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VynZ Research is a global market research firm offering research, analytics, and consulting services on business strategies. VynZ Research has a recognized trajectory record and our research database is used by many renowned companies and institutions in the world to strategize and revolutionize business opportunities. The company focuses on providing valuable insights on various technology verticals such as Chemicals, Automotive, Transportation, Energy, Consumer Durables, Healthcare, ICT and other emerging technologies.

Lithium-Ion Battery Recycling Market is expected to reach US$ 1,392.8 Mn by 2027

The Lithium-Ion Battery Recycling Market Report provides insightful data on market status, future forecast, growth opportunity and key players based on a thorough research process. Readers looking to identify aspects such as market drivers, restraints, weaknesses and threats can get all the desired information over here, along with supporting figures and facts.

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Lithium-ion batteries are found in large proportion. They are becoming crucial among industries, including automotive, mining, and consumer electronics. Smartphones, cordless power tools, laptops, tablets, grid-energy storage, and electric vehicles are the prominent applications where lithium-ion batteries are used at a massive rate. 

Major Key Players in Lithium-Ion Battery Recycling Market :

Ecobat Technologies

AMERICAN MANGANESE INC.

Fortum

GEM CO., LTD

INTERNATIONAL METALS RECLAMATION COMPANY, LLC

Li-Cycle Corp

Neometals Ltd

RETRIEV TECHNOLOGIES INC.

RECUPYL

TES (SINGAPORE) PTE LTD

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Lithium-Ion Battery Recycling Market Segmentation:

Lithium-Ion Battery Recycling Market – by Technology

Lithium-Nickel Manganese Cobalt

Lithium-Iron Phosphate

Lithium-Manganese Oxide

Lithium-Titanate Oxide

Lithium-Nickel Cobalt Aluminum Oxide

Lithium-Ion Battery Recycling Market – by Application

Automotive

Mining

Consumer Electronics

Industrial

Power

 Geographically, the Global Lithium-Ion Battery Recycling Market is designed for the following Regional Markets :

•             North America (USA, Canada and Mexico)

•             Europe (Germany, France, UK, Russia and Italy)

•             Asia-Pacific (China, Japan, Korea, India and Southeast Asia)

•             South America (Brazil, Argentina, Colombia etc.)

•             Middle East and Africa (Saudi Arabia, UAE, Egypt, Nigeria, and South Africa)

 Significance of the report which makes it worth buying:

• A broad and specific understanding of the financial services applications industry is provided in a segmented format based on product types, applications and regions.

• Financial Services Applications Industry The factors and challenges influencing the growth of the industry are presented in this report.

• Plan business strategies and factors leading to market growth.

• Assess competitive market conditions and plan business strategies accordingly

• Understanding Financial Services Application Business plans, policies, technological advancements and profiles of key industry stakeholders

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The key questions answered in Lithium-Ion Battery Recycling Market report are:

• What’s the growth potential of the Lithium-Ion Battery Recycling market?

• The Regional market will emerge as a champion at intervals in the returning years?

• The Application part will grow at a robust rate?

• What unit the growth opportunities that may emerge at intervals the Lithium-Ion Battery Recycling trade at intervals the years to come?

• What unit the key challenges that the global Lithium-Ion Battery Recycling market might face at intervals in the future?

• What unit the key challenges that the global Lithium-Ion Battery Recycling market might face at intervals in the future?

• The leading companies at intervals the global Lithium-Ion Battery Recycling market?

• The key trends completely impacting the market growth?

• The growth strategies thought of by the players to sustain hold at intervals the global Lithium-Ion Battery Recycling Market?

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What are the most potential new lithium battery materials in the future?

What are the most potential new lithium battery materials in the future?

1. Silicon-carbon composite anode material

After the large screen and diversified functions of digital terminal products, new requirements are put forward for the battery life. At present, the gram capacity of lithium battery materials is low, which cannot meet the increasing demand for batteries in terminals.

As a kind of anode material in the future, the theoretical gram capacity of silicon-carbon composite materials is about 4200mAh/g, which is more than 372 times higher than the 10mAh/g of graphite anode.

At present, the important problems of silicon-carbon composites are:

During charging and discharging, the volume expansion can reach 300%, which will lead to the pulverization of silicon material particles, resulting in the loss of material capacity. At the same time, the ability to absorb liquid is poor.

Poor cycle life. At present, the above problems are solved by means of silicon powder nano, silicon carbon coating, doping, etc., and some companies have made some progress.

2. Lithium titanate

In recent years, the domestic enthusiasm for the research and development of lithium titanate is high.

The advantages of lithium titanate are:

It has a long cycle life (up to more than 10000,1 times), is a zero-strain material (volume change is less than <>%), and does not generate SEI films in the traditional sense;

High level of security. Its lithium insertion potential is high, no dendrite is formed, and the thermal stability is extremely high when charging and discharging;

Fast charging possible.

At present, the important factor limiting the use of lithium titanate is that the price is too high, higher than that of traditional graphite, and the gram capacity of lithium titanate is very low, about 170mAh/g. Only by improving the production process and reducing the production cost can the advantages of lithium titanate such as long cycle life and fast charging be put into use. Combined with the market and technology, lithium titanate is more suitable for use in buses and energy storage fields that have no space requirements.

3. Graphene

Since graphene won the Nobel Prize in 2010, it has attracted wide attention from all over the world, especially in China. There has been a boom in graphene research and development in China, which has many excellent properties, such as good light transmittance, excellent electrical conductivity, high thermal conductivity and high mechanical strength.

Potential applications of graphene in lithium-ion batteries are:

as anode material. The gram capacity of graphene is high, and the reversible capacity is about 700mAh/g, which is higher than the capacity of graphite anode. In addition, the good thermal conductivity of graphene ensures its stability in the battery system, and the spacing between graphene sheets is greater than that of graphite, so that lithium ions diffuse smoothly between graphene sheets, which is conducive to improving the power performance of batteries. Due to the immature production process and unstable structure of graphene, there are still some problems in graphene as an anode material, such as low first discharge efficiency, about 65%; Poor cycling performance; The price is higher, which is significantly higher than that of traditional graphite anode.

As a positive and negative electrode additive, it can improve the stability of lithium-ion batteries, extend the cycle life, and add new internal conductivity.

In view of the immaturity, high price and unstable performance of graphene in the current mass production process, graphene will be the first to be used as a positive and negative electrode additive in lithium-ion batteries.

4. Carbon nanotubes

Carbon nanotubes are a kind of carbon material with graphitized structure, which has excellent conductivity, and because of its small depth and short stroke when de-intercalation, it can be used as an anode material for less polarization during large-rate charging and discharging, which can improve the large-rate charge-discharge performance of the battery.

Shortcoming:

When carbon nanotubes are directly used as anode materials for lithium-ion batteries, there are problems such as high irreversible capacity, voltage lag and inconspicuous discharge platform. For example, Ng et al. prepared single-walled carbon nanotubes by simple filtration, and directly used them as anode materials, with a first discharge capacity of 1700mAh/g and a reversible capacity of only 400mAh/g.

Another application of carbon nanotubes in the anode is to combine with other anode materials (graphite, lithium titanate, tin-based, silicon-based, etc.) to improve the electrical properties of other anode materials by using their unique hollow structure, high conductivity and large specific surface area as a carrier.

5. Lithium-rich manganese-based cathode materials

High capacity is one of the development directions of lithium-ion batteries, but the energy density of lithium iron phosphate and lithium nickel-cobalt-manganese oxide is 580Wh/kg and 750Wh/kg in the current cathode materials, both of which are low. The theoretical energy density of lithium-rich manganese base can reach 900Wh/kg, which has become a hot spot for research and development.

The advantages of lithium-rich as a cathode material are:

High energy density and abundant important raw materials

Due to the short development time, there are a number of problems with the lithium-rich manganese base:

The first discharge efficiency is very low, and the material is oxygen in the cycle process, which brings potential safety hazards, poor cycle life, and low rate performance.

At present, the means to solve these problems include coating, acid treatment, doping, pre-cycling, heat treatment, etc. Although lithium-rich manganese base has obvious gram capacity advantages and huge potential, it is limited to slow technological progress, and it will take time for it to be marketed in large quantities.

6. Power nickel-cobalt-lithium manganese oxide material

For a long time, there has been a great controversy about the route of power lithium batteries, so lithium iron phosphate, lithium manganese oxide, ternary materials and other routes have been adopted. The domestic power lithium battery route is dominated by lithium iron phosphate, but with Tesla's popularity around the world, the ternary material route it uses has caused a boom.

Although lithium iron phosphate is safe, its low energy density can not be overcome, and new energy vehicles require longer mileage, so in the long run, materials with higher gram capacity will replace lithium iron phosphate as the next generation of mainstream technology routes.

Lithium nickel-cobalt-manganese oxide ternary materials are most likely to become the mainstream materials for the next generation of power lithium batteries in China. Domestic electric vehicles with ternary routes, such as BAIC E150EV, JAC IEV4, Chery EQ, Weilan, etc., have a great increase in unit weight density compared with lithium-ion iron phosphate batteries.

7. Coat the diaphragm

Separators are critical to the safety of lithium-ion batteries, requiring good electrochemical and thermal stability, as well as high wettability to the electrolyte during repeated charge and discharge.

Coated diaphragm refers to the coating of adhesives such as PVDF or ceramic alumina on the base film. The uses of coated diaphragms are:

1. Improve the heat shrinkage resistance of the diaphragm and prevent the diaphragm from shrinking and causing a large area of short circuit;

2. The thermal conductivity of the coating material is low, which prevents some thermal runaway points in the battery from expanding to form an overall thermal runaway.

8. Ceramic alumina

In the coated separator, the ceramic coated separator is mainly aimed at the power lithium battery system, so its market growth space is larger than that of the glued separator, and the market demand for its core material ceramic alumina will be greatly increased with the rise of ternary power lithium battery.

The purity, particle size and morphology of ceramic alumina used to coat the separator have high requirements, and the products of Japan and South Korea are more mature, but the price is more than twice as expensive as the domestic ones. At present, there are also many companies in China that are developing ceramic alumina, hoping to reduce dependence on imports.

9. High-voltage electrolyte

Increasing the energy density of batteries is one of the trends of lithium-ion batteries, and there are currently two important ways to increase energy density:

One is to increase the charging cut-off voltage of traditional cathode materials, such as increasing the charging voltage of lithium cobalt oxide to 4.35V and 4.4V. However, the method of increasing the charging cut-off voltage is limited, and further increasing the voltage will lead to the collapse of the lithium cobalt oxide structure, which is unstable in nature.

The other is to develop new cathode materials with higher charging and discharging platforms, such as lithium-rich manganese-based, lithium nickel-cobalt oxide, etc.

After the voltage of the cathode material increases, the high-voltage electrolyte to be matched with it, additives play a key role in the high-voltage performance of the electrolyte, which has become the focus of research and development in recent years.

10. Water-based binder

At present, cathode materials mainly use PVDF as a binder, which is dissolved with organic solvents. Organic solvents are also used in the binder system of the negative electrode, such as SBR, CMC, and fluoroolefin polymers. In the process of electrode production, the organic solvent should be dried and volatilized, which not only pollutes the environment, but also endangers the health of employees. The dried and evaporated solvents need to be collected and processed in special freezing equipment, and fluoropolymers and their solvents are expensive, adding to the production cost of lithium-ion batteries.

Lithium-Ion Battery Market to Witness Robust Expansion by 2028

Stratview Research has published a new report on the Lithium-Ion Battery Market after a thorough analysis of the market. The key sources of information gathered for the report include various industry experts, suppliers, manufacturers, associations along with business distributions. The research report determines unique benefits of the various market size, share and the patent industry.

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The objective of the Lithium-Ion Battery Market report is to offer updated information such as the market share, size, trends, emerging markets, earnings, forecasts, and data on leading industry players. This study includes significant and vital information necessary for strategic decision making and have a competitive edge.

In view with the current pandemic analysts at Stratview Research has thoroughly analyzed and presented the following parameters under the detailed Covid – 19 impact analysis in the Lithium-Ion Battery Market.

Market Insights – The Lithium-Ion Battery Marketis projected to grow from USD 6.36 billion in 2022 to USD 8.69 billion by 2028 at a CAGR of over 5.3% during the forecast period.

Few key players operating in the Lithium-Ion Battery Market are-

• BYD Company

• LG Chem

• Panasonic Corporation

• Samsung SDI

• BAK Group

• GS Yuasa Corporation

• Hitachi

• Johnson Controls

• Toshiba Corporation

• Lithium Werks

Growth drivers and Market Value:

This report, from Stratview Research, studies Lithium-ion battery market value and growth drivers over the trend period of 2022-27. According to the report -

Lithium-ion battery market is likely to witness an impressive CAGR of 16.1% during the forecast period. The major demand for lithium-ion batteries is mainly driven by the increasing demand for consumer electronic products, which is bolstering the growth of the market.

Segment Analysis:

Based on by Material Type:

Based on the material type, the market is segmented as lithium nickel manganese cobalt oxide, lithium iron phosphate, lithium cobalt oxide, lithium titanate oxide, lithium manganese oxide, and lithium nickel cobalt aluminum oxide. The lithium nickel manganese cobalt oxide segment held the largest share of the market in 2021, and is expected to remain dominant during the forecast period. The higher share of the segment is attributed to the growing demand for lithium nickel manganese cobalt oxide used in batteries of mobile phones, laptops, automotive, tablets, power tools, and electrical storage systems.

Based on Regional:

In terms of regions, Asia-Pacific is estimated to be the largest market for lithium-ion batteries during the forecast period. The Asia-Pacific’s market is expected to expand with a lucrative CAGR owing to the well-established consumer electronics market in the region, especially in China. Further, the demand from the automotive industry in the region will also augment the regional growth. North America and Europe are also expected to offer considerable growth opportunities during the forecast period.

 

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Critical Questions Answered in the Report

What are the key trends in the global Lithium-Ion Battery Market?

How the Lithium-Ion Battery Market (and its various sub-segments) has grown in the last five years?

What would be the growth driver and growth rate in next five years?

What is the impact of COVID-19 on the Lithium-Ion Battery Market?

What are the key strategies adopted by the major vendors to lead in the Lithium-Ion Battery Market?

What is the market share of the key players?

 

Target Audience

The following is a list of the customers that the Lithium-Ion Battery Market aims to convert the most:

Manufacturing Organizations

Distributors & Suppliers

Potential Investors

 

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