Are graphene batteries available. Are graphene batteries available

Are graphene batteries available

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Graphene Battery Market Size, Share Industry Analysis, By Type (Lithium-Ion Battery, Lithium-Sulphur battery, Graphene Supercapacitor, Others (Metal-Air, Lithiumâ€“Titanate, Lead Acid)), By Application (Consumer Electronics. Automotive. Industrial. Power, Others (Aerospace, Defense, Marine, Medical)) And Regional Forecast 2023-2030

Graphene is considered a wonder material. Its attributes are astonishing. Graphene, a carbon compound, is made up of a sheet of carbon atoms stuck together in a honeycomb lattice-like pattern. The structure and chemical properties make it a good conductor of electricity and heat. It is also astonishingly lightweight, has inert chemical properties, and can stretch over a large surface area. In addition, it is considered eco-friendly. The possible uses of graphene are limitless, especially in the energy and energy storage industry. Graphene significantly improves regular batteries due to its properties. It improves the battery performance, reduces charging time, increases the energy output, and improves the battery’s longevity.

Based on product type, the graphene battery market is primarily segmented into lithium-ion, lithium-sulfur, graphene supercapacitor, and others such as metal-air, lithium–titanate, lead-acid. All graphene-enhanced batteries have good properties, such as being lightweight, durable, etc., but the lithium-ion type battery is in high demand due to the growing positive consumer sentiment. That is the reason it dominates the market in this segment. In addition, the use of lithium-ion batteries is increasing globally. It is being used in automotive, consumer electronics, as well as industrial applications. The electric vehicles industry is also going to help boost the market.

Based on application, the graphene battery market is segmented into consumer electronics, automotive, industrial, power, others (aerospace, defense, marine, medical). The automotive segment is expected to be dominant in the forecast period. The electric car is expected to be in high demand. The usage of electric vehicles is rising, owing to the growing environment-friendly sentiment, hence, contributing to the boost in the market. These factors will lead to estimated growth in the graphene battery market.

There has been an increase in the demand for electric vehicles, and it is expected to maintain its rise in the forecast period. The manufacturers are ready to rely on these favorable sentiments. Electric vehicle production is expected to rise, leading to positive growth of the graphene battery market. The consumer electronics sector is another area where the graphene battery market is expected to flourish. Furthermore, governments are increasing the research and development funding in the graphene market globally, leading to a positive boost in the market.

Despite all of its beneficial properties and the immensely diverse prospects for its application, there is little knowledge about graphene and its uses among the general populace. A lack of proper publicity and representation leads to consumers being unaware of the benefits of graphene-enhanced batteries. Another restraining factor is the proper application of graphene. Even though the theoretical knowledge about graphene and its properties is available, the application is slow, hence, hampering the market’s growth. These factors might stagnate the graphene battery market.

Key Players Covered:

Some of the major companies in the graphene battery market are Samsung Electronics, Huawei, Log 9 Materials, Cabot Corporation, Graphenano, Nanotech Energy, NANOTEK INSTRUMENTS, INC, XG Sciences, ZEN Graphene Solutions Ltd., GrapheneCA. Global Graphene Group, Vorbeck, Graphenea, Hybrid Kinetic Group Ltd., and Targray.

Regional Analysis:

The graphene battery market is spread across North America, Europe, Asia Pacific, Latin America, and the Middle East Africa. Europe is the dominating market for the graphene battery industry, as most graphene manufacturers operate out of Europe. The European market is expected to maintain its appeal during the forecast period. North America will also present favorable opportunities for the graphene battery market, as the scope for electric vehicles is high in the region.

The Asia-Pacific region, which is already a booming market for the graphene battery industry, is expected to experience the highest growth. The Rapid urbanization, electrification of residential areas, Smart city projects, expanding consumer electronics market, and growth in the electric vehicle market in the region are the major reasons for this development. In addition, countries in the region are aiming to minimize carbon emissions. Japan aims to reduce CO2 emission by 50% by the year 2050. These factors will lead to the tremendous growth of the graphene battery market in the region.

Graphene Battery Market by Battery Type (Li-ion Batteries, Li-Sulfur Batteries, Supercapacitors, and Lead-acid Batteries) and Application (Automotive, Electronics, Energy, Aerospace Defense, Industrial Robotics, and Healthcare): Global Opportunity Analysis and Industry Forecast, 2020–2027

The global graphene battery market was valued at 48.8 million in 2019 and is projected to reach 398.6 million by 2027, to register a CAGR of 31.2% during the forecast period. Graphene batteries have emerged as the fastest energy-storing solutions available, globally. The global graphene battery market is fueled by the commercialization of graphene to enhance batteries in the recent years and deliver highly efficient energy storage solutions.

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Graphene is an effective conductor, which is extremely lightweight, and highly flexible with a large surface area, making it an excellent material for high capacity energy storage. Continuous RD activities to develop innovative and improved products, such as graphene-based supercapacitors and Lithium sulfur batteries, are in progress. Adoption of graphene-based batteries is expected to increase during the forecast period due to features such as quick charging capacity, increased charge cycles, effectiveness in high temperatures, and extended duration to hold charge. The market is anticipated to witness high financial investments owing to its high returnoninvestments.

The report comprises of batteries which are using graphene as electrode material such as Li-ion batteries, lead-acid batteries, supercapacitors, and Li-Sulfur batteries. During the forecast period, it is estimated that graphene will be used as anode material as well as cathode material. Conventional graphitic anodes in Li-ion batteries cannot provide high-power densities due to slow diffusivity of lithium ions. Graphene has high electrical conductivity, large specific surface area, and mechanical robustness and is therefore, a promising material for Li-ion battery anodes. Overall conductivity of anodes can be increased due to superior electrical conductivity of graphenenano sheets. Graphene can effectively improve the electron and ion transportation of the electrode materials and can impressively enhance lithium ion battery’s properties and provide better chemical stability, higher electrical conductivity, and higher capacity.

Rise in sales of electric vehicles majorly drives the graphene battery market growth, owing to extended range for long distance travelling and lesser charging time. over, thriving portable electronics market is expected to boost the market growth. Furthermore, increase in government investments in RD are expected to provide lucrative growth opportunities. However, lack of awareness of graphene technology, and incapability of market for in-commercialization process of graphene battery are expected to hinder the growth of the graphene battery market.

Nonetheless, graphene has the potential to be widely used in the fields of physics, chemistry, information, energy, and device manufacturing. Graphene is thin, mechanically strong, transparent, and a flexible conductor. Its conductivity can be modified over a large range either by chemical doping or by an electric field. This report covers industries such as automotive, aerospace defense, healthcare, energy storage, electronics, and industrial robotics. Automotive, electronics, and aerospace defense are expected to consume the major share of the market during the forecast period.

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The global graphene battery market is analyzed by battery type, application, and region. By battery type, it is fragmented into Li-ion batteries, Li-Sulfur batteries, supercapacitors, and lead-acid batteries segments. The Li-ion batteries segment dominated the graphene battery market share in terms of revenue in 2019 and is expected to follow the same trend during the forecast period. The applications covered in this study include automotive, electronics, energy, aerospace defense, industrial robotics, and healthcare. The global graphene battery market is dominated by the automotive segment in terms of value and volume.

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By region, the global graphene battery market is analyzed across North America (U.S., Canada, and Mexico), Europe (UK, Germany, Turkey, Spain, and rest of Europe), Asia-Pacific (China, India, Japan, Australia, and rest of Asia-Pacific), and LAMEA (Latin America, Middle East, and Africa). Europe accounted for the highest share, owing to the presence of majority of graphene manufacturing companies in the region. Asia-Pacific was the second largest contributor in terms of revenue and is expected to witness significant growth during the forecast period, owing to increase in adoption of CO2 emission regulations and surge in awareness on non-conventional energy resources. For instance, the Japanese government focuses at 25% reduction of CO2 emission by 2020 and 50% by 2050, by accelerating the development of electric vehicles, eco-driving, hybrid vehicles, and hydrogen vehicles. To achieve this, the energy storage market requires ultra-large capacity and quick charge- and discharge capacity graphene-based batteries. over, the developing electronics market in this region drives the market growth.

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Top Impacting Factors

The significant impacting factors in the graphene battery market include exponential increase in sales of electric vehicles, rise in portable electronics market, and surge in adoption of non-conventional energy resources, thereby driving the growth of the global graphene battery market. In addition, high cost of raw material, which includes high quality graphene, lack of awareness of the technology, and market being in commercialization state, functions as key constraints to the market. Each of these factors has a definite impact on the growth of the market during the forecast period.

Competition Analysis

Competitive analysis and profiles of the major graphene battery market players, such as Cabot Corporation, Cambridge Nanosystems Ltd., G6 Materials Corp., Graphenano S.L., GrapheneNanoChemplc, Graphenea S.A., NanoXplore Inc., Real Graphene USA, Vorbeck Materials Corp., and XG Sciences, Inc.areprovided in this report.

Key Benefits For Stakeholders

Key Market Segments

By Battery Type

Li-ion Batteries
Li-Sulfur Batteries
Supercapacitors
Lead-acid Batteries

Automotive
Electronics
Energy
Aerospace Defense
Industrial Robotics
Healthcare

North America

U.S.
Canada
Mexico

UK
Germany
Turkey
Spain
Rest of Europe

China
India
Japan
Australia
Rest of Asia-Pacific

Latin America
Middle East
Africa

Key Market Players

FGV CAMBRIDGE NANOSYSTEMS LTD
REAL GRAPHENE
VORBECK MATERIALS CORP
CABOT CORPORATION
NANOXPLORE INC
XG SCIENCES, INC
GRAPHENEA S.A
G6 MATERIALS CORP
GRAPHENANO S.L
GRAPHENE NANOCHEM PLC

1.1.Report description1.2.Key benefits for stakeholders1.3.Key market segments1.4.Key Audiences1.5.Research methodology

1.5.1.Primary research1.5.2.Secondary research1.5.3.Analyst tools and models

Chapter 2:Executive summary

2.1.1.1.Exponential growth in sales of electric vehicles2.1.1.2.Thriving portable electronics market2.1.1.3.Increasing demand for adoption of non-conventional energy resources2.1.1.4.Graphene battery market- in commercialization process2.1.1.5.High cost of raw material2.1.1.6.Lack of awareness of the technology

2.1.2.Top investment s

3.1.Market definition and scope3.2.Technology Road Map

3.3.Key Forces Shaping graphene battery Industry/Market

3.3.1.Low-to-moderate bargaining power of suppliers3.3.2.Low-to-high threat of new entrants3.3.3.Low-to-moderate threat of substitutes3.3.4.Moderate-to-high intensity of rivalry3.3.5.Low-to-moderate bargaining power of buyers

3.5.1.By Region3.5.2.By Applicant

3.6.1.1.Rise in sales of electric vehicles3.6.1.2.Thriving portable electronics market

3.6.2.1.Lack of awareness of graphene technology3.6.2.2.Market in-commercialization process

3.6.3.1.Increasing government investments in RD

Chapter 4:GRAPHENE BATTERY MARKET, BY BATTERY TYPE

4.2.1.Key market trends, growth factors and opportunities4.2.2.Market size and forecast, by region4.2.3.Market analysis by country

4.3.1.Key market trends, growth factors, and opportunities4.3.2.Market size and forecast, by region4.3.3.Market analysis by country

4.4.1.Key market trends, growth factors, and opportunities4.4.2.Market size and forecast, by region4.4.3.Market analysis by country

4.5.1.Key market trends, growth factors, and opportunities4.5.2.Market size and forecast, by region4.5.3.Market analysis by country

CHAPTER 5:GRAPHENE BATTERY MARKET, BY APPLICATION

5.2.1.Key market trends, growth factors and opportunities5.2.2.Market size and forecast, by region5.2.3.Market analysis by country

5.3.1.Key market trends, growth factors and opportunities5.3.2.Market size and forecast, by region5.3.3.Market analysis by country

5.4.1.Key market trends, growth factors and opportunities5.4.2.Market size and forecast, by region5.4.3.Market analysis by country

5.5.1.Key market trends, growth factors and opportunities5.5.2.Market size and forecast, by region5.5.3.Market analysis by country

5.6.1.Key market trends, growth factors and opportunities5.6.2.Market size and forecast, by region5.6.3.Market analysis by country

5.7.1.Key market trends, growth factors and opportunities5.7.2.Market size and forecast, by region5.7.3.Market analysis by country

Chapter 6:GRAPHENE BATTERY MARKET, BY REGION

6.2.1.Key market trends, growth factors and opportunities6.2.2.Market size and forecast, by Battery Type6.2.3.Market size and forecast, by application6.2.4.Market analysis by country

6.2.4.1.1.Market size and forecast, by Battery Type6.2.4.1.2.Market size and forecast, by application

6.2.4.2.1.Market size and forecast, by Battery Type6.2.4.2.2.Market size and forecast, by application

6.2.4.3.1.Market size and forecast, by Battery Type6.2.4.3.2.Market size and forecast, by application

6.3.1.Key market trends, growth factors and opportunities6.3.2.Market size and forecast, by Battery Type6.3.3.Market size and forecast, by application6.3.4.Market analysis by country

6.3.4.1.1.Market size and forecast, by Battery Type6.3.4.1.2.Market size and forecast, by application

6.3.4.2.1.Market size and forecast, by Battery Type6.3.4.2.2.Market size and forecast, by application

6.3.4.3.1.Market size and forecast, by Battery Type6.3.4.3.2.Market size and forecast, by application

6.3.4.4.1.Market size and forecast, by Battery Type6.3.4.4.2.Market size and forecast, by application

6.3.4.5.1.Market size and forecast, by Battery Type6.3.4.5.2.Market size and forecast, by application

6.4.1.Key market trends, growth factors and opportunities6.4.2.Market size and forecast, by Battery Type6.4.3.Market size and forecast, by application6.4.4.Market size and forecast, by Country

6.4.4.1.1.Market size and forecast, by Battery Type6.4.4.1.2.Market size and forecast, by application

6.4.4.2.1.Market size and forecast, by Battery Type6.4.4.2.2.Market size and forecast, by application

6.4.4.3.1.Market size and forecast, by Battery Type6.4.4.3.2.Market size and forecast, by application

6.4.4.4.1.Market size and forecast, by Battery Type6.4.4.4.2.Market size and forecast, by application

6.4.4.5.1.Market size and forecast, by Battery Type6.4.4.5.2.Market size and forecast, by application

6.5.1.Key market trends, growth factors and opportunities6.5.2.Market size and forecast, by Battery Type6.5.3.Market size and forecast, by application6.5.4.Market size and forecast, by country

6.5.4.1.1.Market size and forecast, by Battery Type6.5.4.1.2.Market size and forecast, by application

6.5.4.2.1.Market size and forecast, by Battery Type6.5.4.2.2.Market size and forecast, by application

6.5.4.3.1.Market size and forecast, by Battery Type6.5.4.3.2.Market size and forecast, by application

Chapter 7:COMPETITIVE LANDSCAPE

7.1.1.MARKET PLAYER POSITIONING, 2019

7.2.1.Top winning strategies, by year7.2.2.Top winning strategies, by development7.2.3.Top winning strategies, by company

7.3.COMPETITIVE DASHBOARD7.4.COMPETITIVE HEATMAP7.5.KEY DEVELOPMENTS

7.5.1.New product launches7.5.2.Mergers and acquisition7.5.3.Other developments

Chapter 8:Company profiles

8.1.1.company overview8.1.2.Key Executives8.1.3.company snapshot8.1.4.Operating business segments8.1.5.Product portfolio8.1.6.RD Expenditure8.1.7.Business performance8.1.8.Key strategic moves and developments

8.2.FGV CAMBRIDGE NANOSYSTEMS LTD.

8.2.1.company overview8.2.2.Key Executives8.2.3.company snapshot8.2.4.Operating business segments8.2.5.Product portfolio

8.3.1.company overview8.3.2.Key Executives8.3.3.company snapshot8.3.4.Operating business segments8.3.5.Product portfolio8.3.6.RD Expenditure8.3.7.Business performance

8.4.1.company overview8.4.2.Key Executives8.4.3.company snapshot8.4.4.Operating business segments8.4.5.Product portfolio

8.5.1.company overview8.5.2.Key Executives8.5.3.company snapshot8.5.4.Operating business segments8.5.5.Product portfolio

8.6.1.company overview8.6.2.Key Executives8.6.3.company snapshot8.6.4.Operating business segments8.6.5.Product portfolio

8.7.1.company overview8.7.2.Key Executives8.7.3.company snapshot8.7.4.Operating business segments8.7.5.Product portfolio8.7.6.Key strategic moves and developments

8.8.1.company overview8.8.2.Key Executives8.8.3.company snapshot8.8.4.Operating business segments8.8.5.Product portfolio8.8.6.Key strategic moves and developments

8.9.1.company overview8.9.2.Key Executives8.9.3.company snapshot8.9.4.Operating business segments8.9.5.Product portfolio

8.10.1.company overview8.10.2.Key Executives8.10.3.company snapshot8.10.4.Operating business segments8.10.5.Product portfolio8.10.6.RD Expenditure8.10.7.Business performance

TABLE 01.GLOBAL GRAPHENE BATTERY MARKET, BY BATTERY TYPE, 2020-2027 (MILLION)TABLE 02.GRAPHENE BATTERY MARKET REVENUE FOR LI-ION BATTERIES, BY REGION 2020–2027 (MILLION)TABLE 03.GRAPHENE BATTERY MARKET REVENUE FOR LI-SULFUR BATTERIES, BY REGION 2020–2027(MILLION)TABLE 04.GRAPHENE BATTERY MARKET REVENUE FOR SUPERCAPACITORS, BY REGION 2020–2027(MILLION)TABLE 05.GRAPHENE BATTERY MARKET REVENUE FOR LEAD-ACID BATTERIES, BY REGION 2020–2027(MILLION)TABLE 06.GLOBAL GRAPHENE BATTERY MARKET REVENUE, BY APPLICATION, 2020-2027 (MILLION)TABLE 07.GRAPHENE BATTERY MARKET REVENUE FOR AUTOMOTIVE, BY REGION 2020–2027(MILLION)TABLE 08.GRAPHENE BATTERY MARKET REVENUE FOR ELECTRONICS, BY REGION 2020–2027(MILLION)TABLE 09.GRAPHENE BATTERY MARKET REVENUE FOR ENERGY, BY REGION 2020–2027(MILLION)TABLE 10.GRAPHENE BATTERY MARKET REVENUE FOR AEROSPACE DEFENSE, BY REGION 2020–2027(MILLION)TABLE 11.GRAPHENE BATTERY MARKET REVENUE FOR INDUSTRIAL ROBOTICS, BY REGION 2020–2027(MILLION)TABLE 12.GRAPHENE BATTERY MARKET REVENUE FOR HEALTHCARE, BY REGION 2020–2027(MILLION)TABLE 13.NORTH AMERICA GRAPHENE BATTERY MARKET REVENUE, BY BATTERY TYPE 2020–2027(MILLION)TABLE 14.NORTH AMERICA GRAPHENE BATTERY MARKET REVENUE, BY APPLICATION 2020–2027(MILLION)TABLE 16.NORTH AMERICA GRAPHENE BATTERY MARKET REVENUE, BY COUNTRY, 2020–2027(MILLION)TABLE 17.U.S. GRAPHENE BATTERY MARKET REVENUE, BY BATTERY TYPE 2020–2027(MILLION)TABLE 18.U.S. GRAPHENE BATTERY MARKET REVENUE, BY APPLICATION 2020–2027(MILLION)TABLE 20.CANADA GRAPHENE BATTERY MARKET REVENUE, BY BATTERY TYPE 2020–2027(MILLION)TABLE 21.CANADA GRAPHENE BATTERY MARKET REVENUE, BY APPLICATION 2020–2027(MILLION)TABLE 22.MEXICO GRAPHENE BATTERY MARKET REVENUE, BY BATTERY TYPE 2020–2027(MILLION)TABLE 23.MEXICO GRAPHENE BATTERY MARKET REVENUE, BY APPLICATION 2020–2027(MILLION)TABLE 24.EUROPE GRAPHENE BATTERY MARKET REVENUE, BY BATTERY TYPE 2020–2027(MILLION)TABLE 25.EUROPE GRAPHENE BATTERY MARKET REVENUE, BY APPLICATION 2020–2027(MILLION)TABLE 26.EUROPE GRAPHENE BATTERY MARKET REVENUE, BY COUNRTY, 2020–2027(MILLION)TABLE 27.UK GRAPHENE BATTERY MARKET REVENUE, BY BATTERY TYPE 2020–2027(MILLION)TABLE 28.UK GRAPHENE BATTERY MARKET REVENUE, BY APPLICATION 2020–2027(MILLION)TABLE 29.GERMANY GRAPHENE BATTERY MARKET REVENUE, BY BATTERY TYPE 2020–2027(MILLION)TABLE 30.GERMANY GRAPHENE BATTERY MARKET REVENUE, BY APPLICATION 2020–2027(MILLION)TABLE 31.TURKEY GRAPHENE BATTERY MARKET REVENUE, BY BATTERY TYPE 2020–2027(MILLION)TABLE 32.TURKEY GRAPHENE BATTERY MARKET REVENUE, BY APPLICATION 2020–2027(MILLION)TABLE 33.SPAIN GRAPHENE BATTERY MARKET REVENUE, BY BATTERY TYPE 2020–2027(MILLION)TABLE 34.SPAIN GRAPHENE BATTERY MARKET REVENUE, BY APPLICATION 2020–2027(MILLION)TABLE 35.REST OF EUROPE GRAPHENE BATTERY MARKET REVENUE, BY BATTERY TYPE 2020–2027(MILLION)TABLE 36.REST OF EUROPE GRAPHENE BATTERY MARKET REVENUE, BY APPLICATION 2020–2027(MILLION)TABLE 37.ASIA-PACIFIC GRAPHENE BATTERY MARKET REVENUE, BY BATTERY TYPE 2020–2027(MILLION)TABLE 38.ASIA-PACIFIC GRAPHENE BATTERY MARKET REVENUE, BY APPLICATION 2020–2027(MILLION)TABLE 39.ASIA-PACIFIC GRAPHENE BATTERY MARKET REVENUE, BY APPLICATION 2020–2027(MILLION)TABLE 40.CHINA GRAPHENE BATTERY MARKET REVENUE, BY BATTERY TYPE 2020–2027(MILLION)TABLE 41.CHINA GRAPHENE BATTERY MARKET REVENUE, BY APPLICATION 2020–2027(MILLION)TABLE 42.INDIA GRAPHENE BATTERY MARKET REVENUE, BY BATTERY TYPE 2020–2027(MILLION)TABLE 43.INDIA GRAPHENE BATTERY MARKET REVENUE, BY APPLICATION 2020–2027(MILLION)TABLE 44.JAPAN GRAPHENE BATTERY MARKET REVENUE, BY BATTERY TYPE 2020–2027(MILLION)TABLE 45.JAPAN GRAPHENE BATTERY MARKET REVENUE, BY APPLICATION 2020–2027(MILLION)TABLE 46.AUSTRALIA GRAPHENE BATTERY MARKET REVENUE, BY BATTERY TYPE 2020–2027(MILLION)TABLE 47.AUSTRALIA GRAPHENE BATTERY MARKET REVENUE, BY APPLICATION 2020–2027(MILLION)TABLE 48.REST OF ASIA-PACIFIC GRAPHENE BATTERY MARKET REVENUE, BY BATTERY TYPE 2020–2027(MILLION)TABLE 49.REST OF ASIA-PACIFIC GRAPHENE BATTERY MARKET REVENUE, BY APPLICATION 2020–2027(MILLION)TABLE 50.LAMEA GRAPHENE BATTERY MARKET REVENUE, BY BATTERY TYPE 2020–2027(MILLION)TABLE 51.LAMEA GRAPHENE BATTERY MARKET REVENUE, BY APPLICATION 2020–2027(MILLION)TABLE 52.LAMEA GRAPHENE BATTERY MARKET REVENUE, BY APPLICATION 2020–2027(MILLION)TABLE 53.LATIN AMERICA GRAPHENE BATTERY MARKET REVENUE, BY BATTERY TYPE 2020–2027(MILLION)TABLE 54.LATIN AMERICA GRAPHENE BATTERY MARKET REVENUE, BY APPLICATION 2020–2027(MILLION)TABLE 55.MIDDLE EAST GRAPHENE BATTERY MARKET REVENUE, BY BATTERY TYPE 2020–2027(MILLION)TABLE 56.MIDDLE EAST GRAPHENE BATTERY MARKET REVENUE, BY APPLICATION 2020–2027(MILLION)TABLE 57.AFRICA GRAPHENE BATTERY MARKET REVENUE, BY BATTERY TYPE 2020–2027(MILLION)TABLE 58.AFRICA GRAPHENE BATTERY MARKET REVENUE, BY APPLICATION 2020–2027(MILLION)TABLE 59.KEY NEW PRODUCT LAUNCHES (2017-2019)TABLE 60.KEY MERGERS AND ACQUISITION (2017-2020)TABLE 61.OTHER KEY DEVELOPMENTS (2017-2019)TABLE 62.KEY EXECUTIVESTABLE 63.CABOT CORPORATION: COMPANY SNAPSHOTTABLE 64.CABOT CORPORATION: OPERATING SEGMENTSTABLE 65.CABOT CORPORATION: PRODUCT PORTFOLIOTABLE 66.KEY EXECUTIVESTABLE 67.FGV CAMBRIDGE NANOSYSTEMS: COMPANY SNAPSHOTTABLE 68.FGV CAMBRIDGE NANOSYSTEMS: OPERATING SEGMENTSTABLE 69.FGV CAMBRIDGE NANOSYSTEMS: PRODUCT PORTFOLIOTABLE 70.KEY EXECUTIVESTABLE 71.G6 MATERIALS CORP.: COMPANY SNAPSHOTTABLE 72.G6 MATERIALS CORP.: OPERATING SEGMENTSTABLE 73.G6 MATERIALS CORP.: PRODUCT PORTFOLIOTABLE 74.KEY EXECUTIVESTABLE 75.GRAPHENANO: COMPANY SNAPSHOTTABLE 76.GRAPHENANO: OPERATING SEGMENTSTABLE 77.GRAPHENANO: PRODUCT PORTFOLIOTABLE 78.KEY EXECUTIVESTABLE 79.GRAPHENE NANOCHEM: COMPANY SNAPSHOTTABLE 80.GRAPHENE NANOCHEM: OPERATING SEGMENTSTABLE 81.GRAPHENE NANOCHEM: PRODUCT PORTFOLIOTABLE 82.KEY EXECUTIVESTABLE 83.GRAPHENEA: COMPANY SNAPSHOTTABLE 84.GRAPHENEA: OPERATING SEGMENTSTABLE 85.GRAPHENEA: PRODUCT PORTFOLIOTABLE 86.KEY EXECUTIVESTABLE 87.NANOXPLORE: COMPANY SNAPSHOTTABLE 88.NANOXPLORE: OPERATING SEGMENTSTABLE 89.NANOXPLORE: PRODUCT PORTFOLIOTABLE 90.KEY EXECUTIVESTABLE 91.PROLOGIUM: COMPANY SNAPSHOTTABLE 92.REAL GRAPHENE: OPERATING SEGMENTSTABLE 93.REAL GRAPHENE: PRODUCT PORTFOLIOTABLE 94.KEY EXECUTIVESTABLE 95.VORBECK MATERIALS: COMPANY SNAPSHOTTABLE 96.VORBECK MATERIALS: OPERATING SEGMENTSTABLE 97.VORBECK MATERIALS: PRODUCT PORTFOLIOTABLE 98.KEY EXECUTIVESTABLE 99.XG SCIENCES: COMPANY SNAPSHOTTABLE 100.XG SCIENCES: OPERATING SEGMENTSTABLE 101.XG SCIENCES: PRODUCT PORTFOLIO

FIGURE 01.KEY MARKET SEGMENTSFIGURE 02.GLOBAL GRAPHENE MARKET, KEY AUDIENCESFIGURE 03.EXECUTIVE SUMMARYFIGURE 04.TOP IMPACTING FACTORSFIGURE 05.TOP INVESTMENT SFIGURE 06.TECHNOLOGY ROAD MAPFIGURE 07.VALUE CHAIN ANALYSISFIGURE 08.PATENT ANALYSIS, BY REGIONFIGURE 09.PATENT ANALYSIS, BY APPLICANTFIGURE 10.GLOBAL ELECTRIC VEHICLE DEPLOYMENTFIGURE 11.GLOBAL GRAPHENE BATTERY MARKET, BY BATTERY TYPE, 2020-2027FIGURE 12.COMPARATIVE SHARE ANALYSIS OF LI-ION BATTERIES GRAPHENE BATTERY MARKET, BY COUNTRY, 2020 2027 (%)FIGURE 13.COMPARATIVE SHARE ANALYSIS OF LI-SULFUR BATTERIES GRAPHENE BATTERY MARKET, BY COUNTRY, 2020 2027 (%)FIGURE 14.COMPARATIVE SHARE ANALYSIS OF SUPERCAPACITORS GRAPHENE BATTERY MARKET, BY COUNTRY, 2020 2027 (%)FIGURE 15.COMPARATIVE SHARE ANALYSIS OF LEAD-ACID BATTERIES GRAPHENE BATTERY MARKET, BY COUNTRY, 2020 2027 (%)FIGURE 16.GLOBAL GRAPHENE BATTERY MARKET, BY APPLICATION, 2020-2027FIGURE 17.COMPARATIVE SHARE ANALYSIS OF AUTOMOTIVE GRAPHENE BATTERY MARKET, BY COUNTRY, 2019 2027 (%)FIGURE 18.COMPARATIVE SHARE ANALYSIS OF ELECTRONICS GRAPHENE BATTERY MARKET, BY COUNTRY, 2019 2027 (%)FIGURE 19.COMPARATIVE SHARE ANALYSIS OF ENERGY GRAPHENE BATTERY MARKET, BY COUNTRY, 2019 2027 (%)FIGURE 20.COMPARATIVE SHARE ANALYSIS OF AEROSPACE DEFENSE GRAPHENE BATTERY MARKET, BY COUNTRY, 2019 2027 (%)FIGURE 21.COMPARATIVE SHARE ANALYSIS OF INDUSTRIAL ROBOTICS GRAPHENE BATTERY MARKET, BY COUNTRY, 2019 2027 (%)FIGURE 22.COMPARATIVE SHARE ANALYSIS OF HEALTHCARE GRAPHENE BATTERY MARKET, BY COUNTRY, 2019 2027 (%)FIGURE 23.GLOBAL GRAPHENE BATTERY MARKET REVENUE, BY REGION, 2020–2027(MILLION)FIGURE 24.NORTH AMERICA GRAPHENE BATTERY MARKET REVENUE, BY COUNTRY, 2020–2027(MILLION)FIGURE 25.U.S. GRAPHENE BATTERY MARKET REVENUE, 2020-2027(MILLION)FIGURE 26.CANADA GRAPHENE BATTERY MARKET REVENUE, 2020-2027(MILLION)FIGURE 27.MEXICO GRAPHENE BATTERY MARKET REVENUE, 2020-2027(MILLION)FIGURE 28.EUROPE GRAPHENE BATTERY MARKET REVENUE, BY COUNTRY, 2020-2027(MILLION)FIGURE 29.UK GRAPHENE BATTERY MARKET REVENUE, 2020-2027(MILLION)FIGURE 30.GERMANY GRAPHENE BATTERY MARKET REVENUE, 2020-2027(MILLION)FIGURE 31.TURKEY GRAPHENE BATTERY MARKET REVENUE, 2020-2027(MILLION)FIGURE 32.SPAIN GRAPHENE BATTERY MARKET REVENUE, 2020-2027(MILLION)FIGURE 33.REST OF EUROPE GRAPHENE BATTERY MARKET REVENUE, 2020-2027(MILLION)FIGURE 34.ASIA GRAPHENE BATTERY MARKET REVENUE, BY COUNRTY, 2020–2027(MILLION)FIGURE 35.CHINA GRAPHENE BATTERY MARKET REVENUE, 2020-2027(MILLION)FIGURE 36.INDIA GRAPHENE BATTERY MARKET REVENUE, 2020-2027(MILLION)FIGURE 37.JAPAN GRAPHENE BATTERY MARKET REVENUE, 2020-2027(MILLION)FIGURE 38.AUSTRALIA GRAPHENE BATTERY MARKET REVENUE, 2020-2027(MILLION)FIGURE 39.REST OF ASIA-PACIFIC GRAPHENE BATTERY MARKET REVENUE, 2020-2027(MILLION)FIGURE 40.LAMEA GRAPHENE BATTERY MARKET REVENUE, BY COUNTRY, 2020-2027(MILLION)FIGURE 41.LATIN AMERICA GRAPHENE BATTERY MARKET REVENUE, 2020-2027(MILLION)FIGURE 42.MIDDLE EAST GRAPHENE BATTERY MARKET REVENUE, 2020-2027(MILLION)FIGURE 43.AFRICA GRAPHENE BATTERY MARKET REVENUE, 2020-2027(MILLION)FIGURE 44.MARKET PLAYER POSITIONING, 2019FIGURE 45.TOP WINNING STRATEGIES, BY YEAR, 2017–2020FIGURE 46.TOP WINNING STRATEGIES, BY DEVELOPMENT, 2017–2020 (%)FIGURE 47.TOP WINNING STRATEGIES, BY COMPANY, 2017-2020FIGURE 48.COMPETITIVE DASHBOARDFIGURE 49.COMPETITIVE HEATMAP OF KEY PLAYERSFIGURE 50.RD EXPENDITURE, 2017–2019 (MILLION)FIGURE 51.CABOT CORPORATION: REVENUE, 2017–2019 (MILLION)FIGURE 52.CABOT CORPORATION: REVENUE SHARE BY SEGMENT, 2019 (%)FIGURE 53.CABOT CORPORATION: REVENUE SHARE BY GEOGRAPHY, 2019 (%)FIGURE 54.RD EXPENDITURE, 2017–2019 (MILLION)FIGURE 55.G6 MATERIALS CORP.: REVENUE, 2017–2019 (MILLION)FIGURE 56.RD EXPENDITURE, 2016–2018 (MILLION)FIGURE 57.XG SCIENCES: REVENUE, 2016–2018 (MILLION)

Graphene Battery Market by Type (Lithium-Ion Graphene Battery, Lithium-Sulfur Graphene Battery, Graphene Supercapacitor), End-Use Industry (Consumer Electronics, Automotive, Industrial, Power), Region. Global Forecast to 2030

Updated on : March 31, 2023

Graphene Battery Market

The global graphene battery market is projected to grow from USD 168 million in 2024 to USD 609 million by 2030, at a cagr 23.9% from 2024 to 2030. The market growth is driven by the growth of automotive sector, especially electric vehicles and increasing demand for this battery in consumer electronics.

Global Graphene Battery Market Trends

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Driver: Increasing FOCUS on RD activities

Continuous RD activities are adopted across the globe to make graphene more flexible and efficient for use in applications such as batteries, wearables, inks, construction, among others. Various universities and research institutions are working on graphene-based derivatives, including graphene oxides, graphene nanoplates, and graphene anodes. To improve the for usage of graphene in energy storage systems such as batteries and supercapacitors, many leading consumer electronics and automobile companies are investing in RD activities.

Restraint: Incapability of mass production

There are various reasons obstructing the mass production of graphene batteries such as cost-intensive and time-consuming manufacturing process, maintaining the quality of large quantities of graphene, and up-scaling the graphene production. The electrical conductivity, transparency, thermal conductivity, and impermeability properties of graphene is affected due to any production damage.

Opportunity: Increase in patent activities

The leaders in graphene battery patent applications are companies from end-use industries such as Samsung SDI (South Korea), LG Chem (South Korea), and IBM (US), with LG Chem having filed approximately 19 patents. Patenting activities related to graphene for battery applications have been increasing at a high rate every year. These increase in patent filings create immense opportunity for the market growth of graphene batteries in various end-use industries.

Challenge: High production cost

The cost of graphene battery is directly related to its raw material graphene. The high cost of graphene battery is attributed to the high production cost of graphene and its derivatives. The single-layer high-quality graphene sheets are very expensive, with limited production volume. Thus, increasing the production cost of graphene batteries.

Based on end-use industry, the automotive segment is estimated to account for the largest market share in 2021

Based on the end-use industry, the automotive segment is expected to account for the largest share of the graphene battery industry in 2021. The need for high power and energy density has created a demand for reliable and safe batteries for sectors such as automotive and consumer electronics, ultimately driving the growth of the graphene battery market. The automotive segment is forecasted to have the highest growth rate owing to the rise in the demand for electric vehicles due to environmental concerns and awareness about clean and sustainable fuel.

Based on type, the lithium-ion graphene battery segment is estimated to account for the largest market share in 2021

Based on type, the lithium-ion graphene battery segment is expected to account for the largest share of the graphene battery market in 2021. Graphene lithium-ion batteries are light, durable, and suitable for high-capacity energy storage, as well as shorter charging times which makes it ideal for end-use industries such as consumer electronics, automotive, industrial, and power. The lithium-ion graphene battery segment is forecasted to have the highest growth rate owing to the increasing demand for lithium-ion batteries compared to other batteries due to its various applications in the consumer electronics and automotive industries.

Asia Pacific is estimated to account for the largest share of the graphene battery market in 2021

Based on the region, Asia Pacific region is expected to account for the largest share of the graphene battery industry in 2021. China, Japan, and South Korea are key countries contributing to the increased demand for graphene batteries in this region. In China, Japan and South Korea along with electric vehicles, graphene battery is used in consumer electronics. Europe is estimated to have the second-largest share of the global graphene battery market in 2021.

Graphene Battery Market Players

Samsung SDI (South Korea), Huawei Technologies Co., Ltd. (China), Log 9 Materials Scientific Private Limited (India), Cabot Corporation (US), Grabat Graphenano Energy (Spain), Nanotech Energy (US), Nanotek Instruments, Inc. (US), XG Sciences, Inc. (US), ZEN Graphene Solutions Ltd. (Canada), Graphene NanoChem (Malaysia), Global Graphene Group (US), Vorbeck Materials Corp. (US), Graphenea Group (Spain), Hybrid Kinetic Group Ltd. (Hong Kong) and Targray Group (Canada) are some of the leading players operating in the graphene battery market.

To know about the assumptions considered for the study, download the pdf brochure

Graphene Battery Market Report Scope

Report Metric

Market Size Available for Years

North America, Asia Pacific, Europe, the Middle East Africa, and South America

This research report categorizes the graphene battery market based on type, end-use industry and region and forecasts revenues as well as analyzes trends in each of these submarkets.

Based on the Type

Lithium-ion Graphene Battery
Graphene Supercapacitor
Lithium-Sulfur Graphene Battery
Others

Based on the End-Use Industry

Based on the Region

Asia Pacific
North America
Europe
Middle East Africa
South America

Recent Developments

In December 2018, Log 9 Materials Scientific Private Limited (India) announced that they are working on graphene-based metal-air battery. The metal-air battery uses metal as the anode, oxygen as the cathode and water as an electrolyte. A graphene rod is used as the cathode of the battery. Since oxygen has to be used as the cathode, the cathode material has to be porous to let the air pass, a property in which graphene excels. According to Log 9 Materials, the graphene used in the electrode can increase the battery efficiency by five times at one-third the cost
In November 2017, Samsung SDI (South Korea), in collaboration with Samsung Advanced Institute of Technology (SAIT), developed a unique graphene ball that could make lithium-ion batteries last longer and charge faster. Samsung Advanced Institute of Technology (SAIT) said that using the new graphene ball material to make batteries will increase their capacity by 45% and make their charging speed five times faster. It was also said that this battery would be able to maintain a temperature of 60 degrees Celsius that is required for use in electric cars.

Frequently Asked Questions (FAQ):

What are the major types of graphene batteries?

Lithium-ion graphene battery, graphene supercapacitor, lithium-sulfur graphene battery are the major types of graphene batteries

Which is the major end-use industry of graphene batteries?

Automotive is the major end-use industry of graphene batteries.

What is the major challenge in graphene battery market?

High production cost of graphene batteries.

What is the estimated size of the graphene battery industry in 2021?

The market size of graphene battery is 89 USD million in 2021

Who are the key players in the graphene battery market?

The key players are Samsung SDI (South Korea), Huawei Technologies Co., Ltd. (China), Log 9 Materials Scientific Private Limited (India), Cabot Corporation (US), Grabat Graphenano Energy (Spain), Nanotech Energy (US), Nanotek Instruments, Inc. (US), XG Sciences, Inc. (US), ZEN Graphene Solutions Ltd. (Canada), Graphene NanoChem (Malaysia), Global Graphene Group (US), Vorbeck Materials Corp. (US), Graphenea Group (Spain), Hybrid Kinetic Group Ltd. (Hong Kong) and Targray Group (Canada)

To speak to our analyst for a discussion on the above findings, click Speak to Analyst

Table of Contents

1 Introduction (Page No 13) 1.1 Objectives of the Study 1.2 Market Definition 1.3 Market Scope 1.3.1 Markets Covered 1.3.2 Years Considered for the Study 1.4 Currency 1.5 Limitations 1.6 Stakeholders

2 Research Methodology (Page No 16) 2.1 Research Data 2.1.1 Key Data From Secondary Sources 2.1.2 Key Data From Primary Sources 2.1.2.1 Key Industry Insights 2.2 Market Size Estimation 2.3 Data Triangulation 2.4 Assumptions

3 Executive Summary (Page No 23)

4 Premium Insights (Page No 28) 4.1 Attractive Opportunities in Graphene Battery Market 4.2 Graphene Battery Market, By Region 4.3 Asia Pacific Graphene Battery Market, By Type Country 4.4 Graphene Battery Market, By Major Countries

5 Market Overview (Page No 31) 5.1 Introduction 5.2 Market Dynamics 5.2.1 Drivers 5.2.1.1 Advantages Over Other Battery Materials 5.2.1.2 Increasing Focus on RD Activities 5.2.2 Restraints 5.2.2.1 Incapability of Mass Production 5.2.3 Opportunities 5.2.3.1 Increasing Patents 5.2.4 Challenges 5.2.4.1 High Production Cost 5.3 Economic Indicators 5.3.1 Industry Outlook 5.3.1.1 Electric Vehicles 5.4 Graphene Battery Patent Analysis 5.4.1 Publication Trends – 2015–2019 5.4.2 Insight 5.4.3 Trend Analysis and Geographical Representation 5.4.4 Top Assignees

6 Graphene Battery Market, By Type (Page No 38) 6.1 Introduction 6.2 Lithium-Ion Graphene Battery 6.3 Graphene Supercapacitor 6.4 Lithium-Sulfur Graphene Battery 6.5 Others

7 Graphene Battery Market, By End-Use Industry (Page No 43) 7.1 Introduction 7.2 Automotive 7.2.1 Battery Electric Vehicles 7.2.1.1 Graphene Batteries Provide High Thermal Stability and are Safe for Use in Electric Vehicles 7.2.2 Plug-In Hybrid Electric Vehicles 7.2.2.1 Low Self-Discharge Rate, High Output, and High Energy Density are Driving the Adoption of Graphene Batteries in Hybrid Electric Vehicles 7.3 Consumer Electronics 7.3.1 Smartphones 7.3.2 UPS 7.3.3 Laptops 7.4 Industrial 7.4.1 Mining Equipment 7.4.2 Construction Equipment 7.5 Power 7.6 Others

8 Regional Analysis (Page No 50) 8.1 Introduction 8.2 Asia Pacific 8.3 North America 8.4 Europe 8.5 Rest of the World (RoW)

9 Competitive Landscape (Page No 61) 9.1 Introduction 9.2 Overview 9.3 Competitive Situations Trends 9.3.1 Product Launches 9.3.2 Partnerships 9.3.3 Contracts 9.3.4 Agreements 9.3.5 Expansions 9.3.6 Collaborations 9.3.7 Product Developments 9.3.8 Investments

10 Company Profiles (Page No 67) (Business Overview, Products Offered, Recent Developments, SWOT Analysis, MnM View) 10.1 Graphenano Nanotechnologies 10.2 Nanograf Technologies 10.3 Global Graphene Group 10.4 XG Sciences 10.5 Graphene 3D Lab, Inc. 10.6 Samsung SDI 10.7 Huawei 10.8 Hybrid Kinetic Group Ltd. 10.9 Vorbeck Materials 10.10 Elcora Advanced Materials Corp. 10.11 Nanotek Instruments, Inc. 10.12 Graphene Batteries AS 10.13 Nanotech Energy, Inc. 10.14 ZEN Graphene Solutions Ltd. Details on Business Overview, Products Offered, Recent Developments, SWOT Analysis, MnM View Might Not Be Captured in Case of Unlisted Companies.

11 Appendix (Page No 88) 11.1 Discussion Guide 11.2 Knowledge Store: Marketsandmarkets Subscription Portal 11.3 Available Customizations 11.4 Related Reports 11.5 Author Details

List of Tables (36 Tables)

Table 1 Graphene Battery Market Snapshot Table 2 List of Patents Table 3 Graphene Battery Market, By Type, 2021–2030 (USD Million) Table 4 Lithium-Ion Graphene Battery Market, By Region, 2021–2030 (USD Million) Table 5 Graphene Supercapacitor Market, By Region, 2021–2030 (USD Million) Table 6 Lithium-Sulfur Graphene Battery Market, By Region, 2021–2030 (USD Million) Table 7 Other Graphene Battery Types Market, By Region, 2017–2024 (USD Million) Table 8 Graphene Battery Market, By End-Use Industry, 2021–2039 (USD Million) Table 9 Graphene Battery Market in Automotive, By Region, 2021–2030 (USD Million) Table 10 Graphene Battery Market in Consumer Electronics, By Region, 2021–2030 (USD Million) Table 11 Graphene Battery Market in Industrial, By Region, 2021–2030 (USD Million) Table 12 Graphene Battery Market in Power, By Region, 2021–2030 (USD Million) Table 13 Graphene Battery Market in Other End-Use Industries, By Region, 2021–2030 (USD Million) Table 14 Graphene Battery Market Size, By Region, 2021–2030 (USD Million) Table 15 Graphene Battery Market Size, By Type, 2021–2030 (USD Million) Table 16 Graphene Battery Market Size, By End-Use Industry, 2021–2030 (USD Million) Table 17 Asia Pacific: Graphene Battery Market Size, By Country, 2021–2030 (USD Million) Table 18 Asia Pacific: Graphene Battery Market Size, By Type, 2021–2030 (USD Million) Table 19 Asia Pacific: Graphene Battery Market Size, By End-Use Industry, 2021–2030 (USD Million) Table 20 North America: Graphene Battery Market Size, By Country, 2021–2030 (USD Million) Table 21 North America: Graphene Battery Market Size, By Type, 2021–2030 (USD Million) Table 22 North America: Graphene Battery Market Size, By End-Use Industry, 2021–2030 (USD Million) Table 23 Europe: Graphene Battery Market Size, By Country, 2021–2030 (USD Million) Table 24 Europe: Graphene Battery Market Size, By Type, 2021–2030 (USD Million) Table 25 Europe: Graphene Battery Market Size, By End-Use Industry, 2021–2030 (USD Million) Table 26 RoW: Graphene Battery Market Size, By Region, 2021–2030 (USD Million) Table 27 RoW: Graphene Battery Market Size, By Type, 2021–2030 (USD Million) Table 28 RoW: Graphene Battery Market Size, By End-Use Industry, 2021–2030 (USD Million) Table 29 Product Launches, 2014–2019 Table 30 Partnerships, 2014–2019 Table 31 Contracts, 2014–2019 Table 32 Agreements, 2014–2019 Table 33 Expansions, 2014–2019 Table 34 Collaborations, 2014–2019 Table 35 Product Developments, 2014–2019 Table 36 Investments, 2014–2019

List of Figures (34 Figures)

Figure 1 Graphene Battery Market Segmentation Figure 2 Graphene Battery Market: Research Design Figure 3 Breakdown of Primary Interviews Figure 4 Bottom-Up Approach Figure 5 Top-Down Approach Figure 6 Graphene Battery Market: Data Triangulation Figure 7 Asia Pacific Estimated to Account for Largest Share of Graphene Market in 2021 Figure 8 Automotive End-Use Industry Segment Estimated to Account for Largest Share of Graphene Battery Market in 2021 Figure 9 Lithium-Ion Graphene Battery Segment Estimated to Account for Largest Share of Graphene Battery Market in 2021 Figure 10 Growing Demand for Electric Vehicles Expected to Drive Graphene Battery Market From 2024 to 2030 Figure 11 Graphene Battery Market in Asia Pacific Projected to Grow at Highest Rate During Forecast Period Figure 12 Lithium-Ion Graphene Battery Type and China are Estimated to Account for Largest Share of Asia Pacific Graphene Battery Market in 2021 Figure 13 Graphene Battery Market in China Projected to Grow at Highest Cagr From 2024 to 2030 Figure 14 Graphene Battery Market: Drivers, Restraints, Opportunities Challenges Figure 15 Electric Vehicle Sales, 2010–2018 Figure 16 Country-Wise Electric Vehicle Sales, 2018 Figure 17 Increase in Patent Filings Related to Batteries With Graphene From 2015 to 2019. Figure 18 Filings By Jurisdiction Figure 19 Graphene Battery Patent Top Assignees Figure 20 Graphene Battery Market, By Type, 2024 2030 (USD Million) Figure 21 Graphene Battery Market, By End-Use Industry, 2024 2030 (USD Million) Figure 22 Regional Snapshot: Asian Countries Such as India, China, and Japan to Offer Lucrative Growth Opportunities in Graphene Battery Market During Forecast Period Figure 23 Asia Pacific Graphene Battery Market Snapshot Figure 24 North America Graphene Battery Market Snapshot Figure 25 Europe Graphene Battery Market Snapshot Figure 26 Key Growth Strategies Adopted By Companies in the Graphene Battery Market Between 2014 and 2019 Figure 27 Graphenano Nanotechnologies: SWOT Analysis Figure 28 Global Graphene Group: SWOT Analysis Figure 29 XG Sciences: Company Snapshot Figure 30 XG Sciences: SWOT Analysis Figure 31 Graphene 3D Lab, Inc.: Company Snapshot Figure 32 Samsung SDI: Company Snapshot Figure 33 Samsung SDI: SWOT Analysis Figure 34 Huawei: Company Snapshot

This study involved four major activities in estimating the current size of the graphene battery market. Exhaustive secondary research was undertaken to collect information on the graphene battery industry, its peer markets, and its parent market. The next step was to validate these findings, assumptions, and sizing with the industry experts across the graphene battery value chain through primary research. Both the top-down and bottom-up approaches were employed to estimate the overall size of the market. After that, the market breakdown and data triangulation procedures were used to estimate the sizes of different segments and subsegments of the graphene battery market.

Secondary Research

As a part of the secondary research process, various secondary sources such as Hoovers, Bloomberg, BusinessWeek, Reuters, and Factiva were referred for identifying and collecting information for this study on the graphene battery market. Secondary sources included annual reports, press releases investor presentations of companies, white papers, and certified publications, articles by recognized authors, authenticated directories, and databases.

Secondary research was conducted mainly to obtain key information about the supply chain of the industry, the monetary chain of the market, the total pool of players, and market classification and segmentation according to industry trends to the bottom-most level, regional markets, and key developments undertaken from both, market- and technology oriented perspectives.

Primary Research

As a part of the primary research process, various primary sources from both the supply and demand sides were interviewed to obtain qualitative and quantitative information for this report on the graphene battery market. Primary sources from the supply side included industry experts such as chief executive officers (CEOs), vice presidents, marketing directors, technology and innovation directors, and related key executives from various key companies and organizations operating in the graphene battery market. Primary sources from the demand side included directors, marketing heads, and purchase managers from various end-use industries. Following is the breakdown of the primary respondents.

To know about the assumptions considered for the study, download the pdf brochure

Market Size Estimation

Both top-down and bottom-up approaches were used to estimate and validate the total size of the graphene battery market. These methods were also used extensively to estimate the size of various segments and subsegments of the market. The research methodology used to estimate the market size included the following:

The key players in the industry and markets were identified through extensive secondary research.
The supply chain of the industry and the market size, in terms of value, were determined through primary and secondary research processes.
All percentage shares, splits, and breakdowns were determined using secondary sources and verified through primary sources.

Data Triangulation

After arriving at the overall graphene battery market size from the market size estimation process explained above, the total market was split into several segments and subsegments. Data triangulation and market breakdown procedures were used, wherever applicable, to complete the overall market engineering process and arrive at the exact statistics for all segments and subsegments of the market. The data was triangulated by studying various factors and trends from both the demand and supply sides. In addition to this, the market size was validated using both top-down and bottom-up approaches.

The following customization options are available for the report:

We will customize the research for you, in case the report listed above does not meet with your exact requirements. Our custom research will comprehensively cover the business information you require to help you arrive at strategic and profitable business decisions.

NASA has been testing a new graphene battery that could one day sustainably power our electric planes and road vehicles.

Have we already found the natural progression beyond lithium EV batteries, even though they’ve yet to replace gas? Possibly is the answer.

Beyond its space-based endeavours, NASA is occupied with furthering humanity as we strive to solve our biggest problems.

In the ultimate goal of avoiding irreversible shifts to our climate, there are many things that need to happen and creating sustainable forms of transport that are also affordable is one such dilemma we must crack.

While our green roadmap currently relies on electric vehicles – largely powered by lithium or cobalt batteries – and advances in biofuels, NASA is working on something more all-encompassing: a revolutionary battery made from graphene called SABERS.

The acronym stands for Solid-state Architecture Batteries for Enhanced Rechargeability Safety, and involves developing the holy grail of all power units. Supposedly, it could make electric flight possible, and would impact everything from public transportation to our phones and laptops.

Developed at a research centre in Cleveland, Ohio, SABERS has eliminated all of the toxic and dangerous materials that make current electrical batteries too risky or inefficient to replace fossil fuels, certainly for flying a plane full of over 100 people, for example.

For context, your average 747 flier requires a power density of at least 480 watt-hour per kilogram and the best a lithium battery can offer is around 260 watt-hour per kilogram.

The dark side of lithium and our supposed electric future

Ion batteries found in today’s hybrid vehicles are made up of three parts: the top being a cathode (made of lithium and cobalt), a filling comprised of a flammable electrolyte, and the electrode at the bottom generally made from graphite.

The chemical reactions between these components allow the batteries to charge, store, and deliver electricity effectively, but fail to perform at anywhere near the same efficiency as fossil fuels. A 2016 study from the US Department of Energy suggested we’re ‘three decades’ from closing the gap using this power source.

Beyond these drawbacks, there’s no established formula for safely recycling the batteries and the rare Earth minerals needed to build them are a constant cause of geopolitical tension.

The formation of early SABERS prototypes goes: lithium metal (instead of ion, which is like gel), a cathode of sulfur and selenium arranged in graphene mesh, and an unspecified property of NASA which is solid and free of the flammable components in lithium ions.

Preliminary tests have displayed a seriously impressive power density of 500 watt-hours per kilogram which tops the minimum requirement for commercial flights. Operative temperatures haven’t exceeded 302 fahrenheit at maximum capacity, and researchers found it required far less cooling than lithium ion too.

This could potentially mean that we’ve found a more promising avenue away from ceaseless fossil fuel usage than lithium, and before ion batteries have even made a significant dent.

‘Batteries like the technology they [NASA] are working on are needed to extend the range of electric vehicles and even enable electric or hybrid-electric aircraft, and I think it is great that NASA is advancing this next generation battery technology,’ said Dr. Matthew T.McDowell of the Georgia Institute of Technology.

It’s comforting to know that putting a man on the moon isn’t occupying all of the space agency’s time and effort. We’ve one or two sizable problems that need fixing here first.

I’m Jamie (He/Him), the Deputy Editor and a Senior Writer at Thred. Keeping up with social media updates and revolutionary technology is my forte, but when away from my keyboard, you’ll probably find me wrapped around a large Tango ice blast at the latest mediocre horror flick. Follow me on. LinkedIn and drop me some ideas/feedback via email.

Non-flammable, graphene-based lithium-ion batteries approaching stationary storage market

US-based Nanotech Energy’s graphene battery uses proprietary electrodes with a thermally stable separator, and non-flammable electrolyte that is said to be inexpensive to manufacture. The technology is said to be superior in terms of safety and competitive in terms of cell performance.

The company is using the 18650 package, but says it can adapt its architecture to any battery size and shape.

Image: Nanotech Energy

Los Angeles-based technology start-up Nanotech Energy says its proprietary, graphene-based, nanotechnology overcomes the safety challenges of traditional lithium-ion batteries, and its latest announcement signals it might be making progress in bringing its products to the mass market.

Nanotech’s battery uses lithium-ion chemistry supported by graphene and a proprietary nonflammable electrolyte technology that improves the electrochemical properties and safety of its electrodes.

According to the company, graphene provides ideal electronic and mechanical support to increase the reversible capacity, power and cycling stability of standard cathodes. Nanotech produces its own graphene, which allows it to be vertically integrated.

On Thursday, the company announced it would supply more than 1 GWh of battery energy storage systems (BESS) to Athens-headquartered Smile Energy, acting as the distributor for Greece and the surrounding region with Nanotech Energy BESS products through to 2028. Greece has recently doubled its 2030 energy storage target to 3 GW.

Smile Energy will potentially use Nanotech’s products to develop BESS for private homes, commercial real estate, and the marine sector and building on its pipeline of 700 MWh of energy storage across Greece, Bulgaria, and Romania.

Battery tech

The startup uses a solution processing method that allows graphene to be coated on “any substrate” along with a laser process step that forms a graphene foam. The company had originally applied its graphene technology to making better supercapacitors, but now focuses on its “super battery.”

Marija Maisch

Marija has years of experience in a news agency environment and writing for print and online publications. She took over as the editor of pv magazine Australia in 2018 and helped establish its online presence over a two-year period.

Sources:

https://www.fortunebusinessinsights.com/amp/graphene-battery-market-105711
https://www.alliedmarketresearch.com/graphene-battery-market/amp
https://www.marketsandmarkets.com/Market-Reports/graphene-battery-market-96975481.html
https://thred.com/tech/nasas-graphene-battery-could-overtake-lithium-in-the-ev-revolution/
https://www.pv-magazine.com/2022/10/24/non-flammable-graphene-based-lithium-ion-batteries-approaching-stationary-storage-market/

Are graphene batteries available. Are graphene batteries available