The Global Graphene Electronics Market size is expected to reach $1.6 billion by 2028, rising at a market growth of 32.7% CAGR during the forecast period.
Graphene is the first 2-D carbon substance discovered. As a result, graphene is suitable for a wide range of uses in the electronics industry. Compared to steel, Graphene is 200 times stronger, 200 times lighter than air, a good conductor of electricity, and fire-resistant. Graphene is also valued as a powerful catalyst in the chemical industry due to attributes including its absorption capacity and high surface area.
The next-generation semiconductor technology may be developed using graphene, which conducts electricity better than existing electrode materials. The revolutionary material known as graphene is composed of a graphite atoms' single layer arranged as a single sheet. Graphene has several beneficial properties, some of which include improved heat conductivity, excellent mechanical strength, and extremely high electron mobility.
Due to graphene's distinctive characteristics of conductivity and thinness, which include its use in a variety of electronic device components, like batteries, sensors, solar cells, and more, extensive studies have been conducted on graphene's potential uses as a semiconductor. Current computer chip technology might be replaced by graphene semiconductors, as these can conduct electricity at room temperature and are only one atom thick.
Graphene has the ability to produce composite materials with exceptional properties and improve the strength and conductivity of bulk materials. Composite materials are created by mixing two or more substances with different qualities to create an end product with distinctive attributes. Similar processes are used in the production of graphene composites.
The market research report covers the analysis of key stake holders of the market. Key companies profiled in the report include Samsung Electronics Co., Ltd. (Samsung Group), Talga Group Ltd., NanoXplore, Inc., Versarien plc, AMG Advanced Metallurgical Group N.V., Haydale Graphene Industries PLC, First Graphene Ltd., Graphenea, Graphene Platform Corporation, and Graphene Square, Inc.
Graphene is the first 2-D carbon substance discovered. As a result, graphene is suitable for a wide range of uses in the electronics industry. Compared to steel, Graphene is 200 times stronger, 200 times lighter than air, a good conductor of electricity, and fire-resistant. Graphene is also valued as a powerful catalyst in the chemical industry due to attributes including its absorption capacity and high surface area.
The next-generation semiconductor technology may be developed using graphene, which conducts electricity better than existing electrode materials. The revolutionary material known as graphene is composed of a graphite atoms' single layer arranged as a single sheet. Graphene has several beneficial properties, some of which include improved heat conductivity, excellent mechanical strength, and extremely high electron mobility.
Due to graphene's distinctive characteristics of conductivity and thinness, which include its use in a variety of electronic device components, like batteries, sensors, solar cells, and more, extensive studies have been conducted on graphene's potential uses as a semiconductor. Current computer chip technology might be replaced by graphene semiconductors, as these can conduct electricity at room temperature and are only one atom thick.
Graphene has the ability to produce composite materials with exceptional properties and improve the strength and conductivity of bulk materials. Composite materials are created by mixing two or more substances with different qualities to create an end product with distinctive attributes. Similar processes are used in the production of graphene composites.
COVID-19 Impact Analysis
The COVID-19 pandemic had a substantial negative impact on the expansion of the graphene electronics market. The pandemic propagated the lack of a skilled workforce to create next-generation graphene electronics, including batteries, memories, displays, and other products. It also affected the demand for the production of final components and raw materials utilized in consumer industries. Several businesses that had reservations about the advantages of digitalization joined on board as a result of the pandemic. Flexible electronics for business applications consequently received new prospects, leading to the greater use of graphene on electronic products.Market Growth Factors
Increasing need for electronic memory devices
Due to the growing popularity of mid- and high-end laptops, smartphones, wearables, gaming consoles, and other devices that employ these chips for non-volatile and volatile memory, the application of memory devices has experienced a tremendous increase. Low power consumption, high uniformity, increased density, SET voltage modulation, transparency, and other factors are expected to cause memory device manufacturers to shift their attention to the creation and incorporation of graphene in their products. This should help graphene-based memory systems gain more traction in the market for consumer electronics in the future.Rising use of graphene in automotive and electronic applications
Due to its superior thermal conductivity, great mechanical strength, rapid electron mobility, and other features, the usage of graphene for the creation of lower-power-consuming and faster electronics have significantly increased during the past few years. A Hall Effect sensor based on graphene that delivers a quicker, more direct assessment of the magnetic field with the precision and range needed for precise battery cell mapping was introduced by a UK-based company. This sensor has been developed to replace rare metal indium in electronic devices. According to analysis, the OEMs' increasing focus on creating electrical goods based on graphene is greatly aiding the market growth.Market Restraining Factor
High initial investment and other challenges associated with the use of graphene
Graphene is an efficient conductor of electricity, yet, like graphite, it cannot be shut off because it lacks a band gap. Recently, scientists employed a process called laser shock imprinting to permanently alter the band gap structure in graphene. During this process, shockwave impulses generated by a laser were directed at a graphene sheet beneath it. These laser shocks permanently shaped the graphene layer as they forced it into a trench-like mold. Although the method allows for greater versatility in utilizing the optical, magnetic, and thermal properties of graphene, there remains a large delay to market for commercializing graphene into semiconducting devices.Industry Outlook
Based on industry, the graphene electronics market is categorized into consumer electronics, automotive, healthcare, industrial robotics, aerospace & defense, and others. The automotive segment garnered the highest revenue share in the graphene electronics market in 2021. With numerous essential uses, including tires, electronics, fluids, and fluidic systems, graphene exhibits significant potential and drives the segment's growth. Since touchscreens and liquid-crystal displays (LCDs) are the most common types of user interfaces, graphene is a desirable material that might be employed in various user interfaces.Product Outlook
On the basis of product, the graphene electronics market is divided into display, memories, batteries, solar cell, integrated circuits & chips, and others. The integrated circuits and chips segment witnessed a significant revenue share in the graphene electronics market in 2021. Numerous researches have been focused on developing high-speed electron circuits and devices to take advantage of graphene's exceptional electrical characteristics in high-frequency applications. The electrical abilities of graphene electronics and their applicability for high-frequency purposes are expected to be enhanced by the large-area graphene sheets' high electron mobility.Regional Outlook
Based on region, the graphene electronics market is analyzed across North America, Europe, Asia Pacific, and LAMEA. The Asia Pacific region procured the highest revenue share in the graphene electronics market in 2021. Due to the presence of major producers of consumer electronics, such as mobile phones and smart TVs, in the region, graphene-based components are being used in many products. Additionally, the regional market is anticipated to experience growth due to the potential usage of graphene films, substituting the indium tin oxide as a transparent conductor in smart TVs, solar cells, smartphones, tablets, and wearable electronics.The market research report covers the analysis of key stake holders of the market. Key companies profiled in the report include Samsung Electronics Co., Ltd. (Samsung Group), Talga Group Ltd., NanoXplore, Inc., Versarien plc, AMG Advanced Metallurgical Group N.V., Haydale Graphene Industries PLC, First Graphene Ltd., Graphenea, Graphene Platform Corporation, and Graphene Square, Inc.
Recent Strategies Deployed in Graphene Electronics Market
- Jan-2023: Graphenea added new features to the mGFET line of products with the help of an inbuilt reservoir for liquids. This upgrade would be used for rapid screening and clinical testing. Additionally, this product eases the use of bio sensing. The mGFET product line is developed to reduce the barriers to the adoption of graphene as a biosensor
- Sep-2022: Versarien collaborated with BiaBrazil, a sport and activewear manufacturer. Under this partnership, the company would manufacture garments designed for both style and comfort along with maintaining performance and quality levels with Graphene-Wear technology
- Jun-2022: Versarien unveiled a new nanomaterial having super paramagnetic properties that can be used in various fields including healthcare and defense. Through this launch, the company is growing into the generation of nanomaterial and delivering innovation to the industries globally
- Jun-2022: Versarien partnered with OG Classic, a sports and leisurewear manufacturer. The partnership would result in the growth of graphene-based fabrics in the markets of the Middle East
- Jul-2022: Graphenea partnered with Grapheal, a company providing digital biosensors for wearables, wound care and diagnostics. Under this partnership, the companies would hasten the research on biosensors with the help of the new software GraphLAB. This software would integrate acquisition protocols, capacitance change detection and automation programming with actual time conductance shift analysis
- Dec-2021: NanoXplore Inc. acquired Canuck Compounders Inc., a company engaged in custom compounding of engineered resins. This acquisition would increase the company's capabilities for graphene compounding in recycled plastics and would allow the company to partner with the end customers
- Sep-2021: Talga is expanding its footprints in northern Sweden by building a low emission battery anode production factory and integrating graphite mining operations with the use of renewable electricity. On reaching the growth phase of battery anode operations in Sweden this would electrify the underground mining processes
- Jun-2021: NanoXplore Inc. signed a distribution and supply agreement with Gerdau Grafeno LTDA, a company engaged in making graphene-based solutions. This would help in the expansion of graphene applications at industrial levels and would target the customers in construction and concrete markets. This agreement would help in boosting the company's position in the graphene market and would potentially increase the demand of graphene much more than the NanoXplore's producing capacity
- Dec-2020: Talga Group signed an MoU with ABB, a technology company in the field of electrification and automation. Under this MoU, the companies would develop Talga’s Vittangi Anode Project in northern Sweden. This would help the company to build the biggest lithium-ion battery anode production factory in Europe
- Dec-2020: Graphenea came into collaboration with Lantania, a construction engineering company. Under this collaboration, the combining companies would study the usage of graphene in concrete. Through this collaboration, the company would bring graphene-based additives for concrete to the market to provide performance advancements
- Sep-2020: NanoXplore Inc. took over Continental Structural Plastics, a design and service supplier to transportive industries. Through this acquisition, the company would enter US markets and increase the sale of graphene. The graphene-based products can be manufactured and stored in the Newton facility
- Nov-2019: Graphenea unveiled highly flat monolayer graphene. This launched product would be able to demand wafer-scale integration to manufacture uniform graphene devices which are compatible with ongoing fabrication methods in the industries
- Jan-2018: Graphenea unveiled a 6' graphene wafer on all the organization's standard substrates. This newly launched wafer would be used by commercial fabrication lines for their use in sensing, NEMS, MEMS and electronics
Scope of the Study
Market Segments Covered in the Report:
By Product
- Batteries
- Display
- Solar Cell
- Memories
- Integrated Circuits & Chips
- Others
By Industry
- Automotive
- Consumer Electronics
- Industrial Robotics
- Healthcare
- Aerospace & Defense
- Others
By Geography
North America
- US
- Canada
- Mexico
- Rest of North America
Europe
- Germany
- UK
- France
- Russia
- Spain
- Italy
- Rest of Europe
Asia Pacific
- China
- Japan
- India
- South Korea
- Singapore
- Malaysia
- Rest of Asia Pacific
LAMEA
- Brazil
- Argentina
- UAE
- Saudi Arabia
- South Africa
- Nigeria
- Rest of LAMEA
Key Market Players
List of Companies Profiled in the Report:
- Samsung Electronics Co., Ltd. (Samsung Group)
- Talga Group Ltd
- NanoXplore, Inc
- Versarien plc
- AMG Advanced Metallurgical Group N.V
- Haydale Graphene Industries PLC
- First Graphene Ltd
- Graphenea
- Graphene Platform Corporation
- Graphene Square, Inc
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Table of Contents
Chapter 1. Market Scope & Methodology1.1 Market Definition
1.2 Objectives
1.3 Market Scope
1.4 Segmentation
1.4.1 Global Graphene Electronics Market, by Product
1.4.2 Global Graphene Electronics Market, by Industry
1.4.3 Global Graphene Electronics Market, by Geography
1.5 Methodology for the research
Chapter 2. Market Overview
2.1 Introduction
2.1.1 Overview
2.1.1.1 Market Composition & Scenario
2.2 Key Factors Impacting the Market
2.2.1 Market Drivers
2.2.2 Market Restraints
Chapter 3. Strategies deployed in Graphene Electronics Market
Chapter 4. Global Graphene Electronics Market by Product
4.1 Global Batteries Market by Region
4.2 Global Display Market by Region
4.3 Global Solar Cell Market by Region
4.4 Global Memories Market by Region
4.5 Global Integrated Circuits & Chips Market by Region
4.6 Global Others Market by Region
Chapter 5. Global Graphene Electronics Market by Industry
5.1 Global Automotive Market by Region
5.2 Global Consumer Electronics Market by Region
5.3 Global Industrial Robotics Market by Region
5.4 Global Healthcare Market by Region
5.5 Global Aerospace & Defense Market by Region
5.6 Global Others Market by Region
Chapter 6. Global Graphene Electronics Market by Region
6.1 North America Graphene Electronics Market
6.1.1 North America Graphene Electronics Market by Product
6.1.1.1 North America Batteries Market by Country
6.1.1.2 North America Display Market by Country
6.1.1.3 North America Solar Cell Market by Country
6.1.1.4 North America Memories Market by Country
6.1.1.5 North America Integrated Circuits & Chips Market by Country
6.1.1.6 North America Others Market by Country
6.1.2 North America Graphene Electronics Market by Industry
6.1.2.1 North America Automotive Market by Country
6.1.2.2 North America Consumer Electronics Market by Country
6.1.2.3 North America Industrial Robotics Market by Country
6.1.2.4 North America Healthcare Market by Country
6.1.2.5 North America Aerospace & Defense Market by Country
6.1.2.6 North America Others Market by Country
6.1.3 North America Graphene Electronics Market by Country
6.1.3.1 US Graphene Electronics Market
6.1.3.1.1 US Graphene Electronics Market by Product
6.1.3.1.2 US Graphene Electronics Market by Industry
6.1.3.2 Canada Graphene Electronics Market
6.1.3.2.1 Canada Graphene Electronics Market by Product
6.1.3.2.2 Canada Graphene Electronics Market by Industry
6.1.3.3 Mexico Graphene Electronics Market
6.1.3.3.1 Mexico Graphene Electronics Market by Product
6.1.3.3.2 Mexico Graphene Electronics Market by Industry
6.1.3.4 Rest of North America Graphene Electronics Market
6.1.3.4.1 Rest of North America Graphene Electronics Market by Product
6.1.3.4.2 Rest of North America Graphene Electronics Market by Industry
6.2 Europe Graphene Electronics Market
6.2.1 Europe Graphene Electronics Market by Product
6.2.1.1 Europe Batteries Market by Country
6.2.1.2 Europe Display Market by Country
6.2.1.3 Europe Solar Cell Market by Country
6.2.1.4 Europe Memories Market by Country
6.2.1.5 Europe Integrated Circuits & Chips Market by Country
6.2.1.6 Europe Others Market by Country
6.2.2 Europe Graphene Electronics Market by Industry
6.2.2.1 Europe Automotive Market by Country
6.2.2.2 Europe Consumer Electronics Market by Country
6.2.2.3 Europe Industrial Robotics Market by Country
6.2.2.4 Europe Healthcare Market by Country
6.2.2.5 Europe Aerospace & Defense Market by Country
6.2.2.6 Europe Others Market by Country
6.2.3 Europe Graphene Electronics Market by Country
6.2.3.1 Germany Graphene Electronics Market
6.2.3.1.1 Germany Graphene Electronics Market by Product
6.2.3.1.2 Germany Graphene Electronics Market by Industry
6.2.3.2 UK Graphene Electronics Market
6.2.3.2.1 UK Graphene Electronics Market by Product
6.2.3.2.2 UK Graphene Electronics Market by Industry
6.2.3.3 France Graphene Electronics Market
6.2.3.3.1 France Graphene Electronics Market by Product
6.2.3.3.2 France Graphene Electronics Market by Industry
6.2.3.4 Russia Graphene Electronics Market
6.2.3.4.1 Russia Graphene Electronics Market by Product
6.2.3.4.2 Russia Graphene Electronics Market by Industry
6.2.3.5 Spain Graphene Electronics Market
6.2.3.5.1 Spain Graphene Electronics Market by Product
6.2.3.5.2 Spain Graphene Electronics Market by Industry
6.2.3.6 Italy Graphene Electronics Market
6.2.3.6.1 Italy Graphene Electronics Market by Product
6.2.3.6.2 Italy Graphene Electronics Market by Industry
6.2.3.7 Rest of Europe Graphene Electronics Market
6.2.3.7.1 Rest of Europe Graphene Electronics Market by Product
6.2.3.7.2 Rest of Europe Graphene Electronics Market by Industry
6.3 Asia Pacific Graphene Electronics Market
6.3.1 Asia Pacific Graphene Electronics Market by Product
6.3.1.1 Asia Pacific Batteries Market by Country
6.3.1.2 Asia Pacific Display Market by Country
6.3.1.3 Asia Pacific Solar Cell Market by Country
6.3.1.4 Asia Pacific Memories Market by Country
6.3.1.5 Asia Pacific Integrated Circuits & Chips Market by Country
6.3.1.6 Asia Pacific Others Market by Country
6.3.2 Asia Pacific Graphene Electronics Market by Industry
6.3.2.1 Asia Pacific Automotive Market by Country
6.3.2.2 Asia Pacific Consumer Electronics Market by Country
6.3.2.3 Asia Pacific Industrial Robotics Market by Country
6.3.2.4 Asia Pacific Healthcare Market by Country
6.3.2.5 Asia Pacific Aerospace & Defense Market by Country
6.3.2.6 Asia Pacific Others Market by Country
6.3.3 Asia Pacific Graphene Electronics Market by Country
6.3.3.1 China Graphene Electronics Market
6.3.3.1.1 China Graphene Electronics Market by Product
6.3.3.1.2 China Graphene Electronics Market by Industry
6.3.3.2 Japan Graphene Electronics Market
6.3.3.2.1 Japan Graphene Electronics Market by Product
6.3.3.2.2 Japan Graphene Electronics Market by Industry
6.3.3.3 India Graphene Electronics Market
6.3.3.3.1 India Graphene Electronics Market by Product
6.3.3.3.2 India Graphene Electronics Market by Industry
6.3.3.4 South Korea Graphene Electronics Market
6.3.3.4.1 South Korea Graphene Electronics Market by Product
6.3.3.4.2 South Korea Graphene Electronics Market by Industry
6.3.3.5 Singapore Graphene Electronics Market
6.3.3.5.1 Singapore Graphene Electronics Market by Product
6.3.3.5.2 Singapore Graphene Electronics Market by Industry
6.3.3.6 Malaysia Graphene Electronics Market
6.3.3.6.1 Malaysia Graphene Electronics Market by Product
6.3.3.6.2 Malaysia Graphene Electronics Market by Industry
6.3.3.7 Rest of Asia Pacific Graphene Electronics Market
6.3.3.7.1 Rest of Asia Pacific Graphene Electronics Market by Product
6.3.3.7.2 Rest of Asia Pacific Graphene Electronics Market by Industry
6.4 LAMEA Graphene Electronics Market
6.4.1 LAMEA Graphene Electronics Market by Product
6.4.1.1 LAMEA Batteries Market by Country
6.4.1.2 LAMEA Display Market by Country
6.4.1.3 LAMEA Solar Cell Market by Country
6.4.1.4 LAMEA Memories Market by Country
6.4.1.5 LAMEA Integrated Circuits & Chips Market by Country
6.4.1.6 LAMEA Others Market by Country
6.4.2 LAMEA Graphene Electronics Market by Industry
6.4.2.1 LAMEA Automotive Market by Country
6.4.2.2 LAMEA Consumer Electronics Market by Country
6.4.2.3 LAMEA Industrial Robotics Market by Country
6.4.2.4 LAMEA Healthcare Market by Country
6.4.2.5 LAMEA Aerospace & Defense Market by Country
6.4.2.6 LAMEA Others Market by Country
6.4.3 LAMEA Graphene Electronics Market by Country
6.4.3.1 Brazil Graphene Electronics Market
6.4.3.1.1 Brazil Graphene Electronics Market by Product
6.4.3.1.2 Brazil Graphene Electronics Market by Industry
6.4.3.2 Argentina Graphene Electronics Market
6.4.3.2.1 Argentina Graphene Electronics Market by Product
6.4.3.2.2 Argentina Graphene Electronics Market by Industry
6.4.3.3 UAE Graphene Electronics Market
6.4.3.3.1 UAE Graphene Electronics Market by Product
6.4.3.3.2 UAE Graphene Electronics Market by Industry
6.4.3.4 Saudi Arabia Graphene Electronics Market
6.4.3.4.1 Saudi Arabia Graphene Electronics Market by Product
6.4.3.4.2 Saudi Arabia Graphene Electronics Market by Industry
6.4.3.5 South Africa Graphene Electronics Market
6.4.3.5.1 South Africa Graphene Electronics Market by Product
6.4.3.5.2 South Africa Graphene Electronics Market by Industry
6.4.3.6 Nigeria Graphene Electronics Market
6.4.3.6.1 Nigeria Graphene Electronics Market by Product
6.4.3.6.2 Nigeria Graphene Electronics Market by Industry
6.4.3.7 Rest of LAMEA Graphene Electronics Market
6.4.3.7.1 Rest of LAMEA Graphene Electronics Market by Product
6.4.3.7.2 Rest of LAMEA Graphene Electronics Market by Industry
Chapter 7. Company Profiles
7.1 Samsung Electronics Co., Ltd. (Samsung Group)
7.1.1 Company Overview
7.1.2 Financial Analysis
7.1.3 Segmental and Regional Analysis
7.1.4 Research & Development Expense
7.1.5 SWOT Analysis
7.2 Talga Group Ltd.
7.2.1 Company Overview
7.2.2 Financial Analysis
7.2.3 Regional Analysis
7.2.4 Research & Development Expenses
7.2.5 Recent strategies and developments:
7.2.5.1 Partnerships, Collaborations, and Agreements:
7.2.5.2 Geographical Expansions:
7.3 NanoXplore, Inc.
7.3.1 Company Overview
7.3.2 Financial Analysis
7.3.3 Regional Analysis
7.3.4 Research & Development Expenses
7.3.5 Recent strategies and developments:
7.3.5.1 Partnerships, Collaborations, and Agreements:
7.3.5.2 Acquisition and Mergers:
7.4 Versarien plc
7.4.1 Company Overview
7.4.2 Financial Analysis
7.4.3 Segmental and Regional Analysis
7.4.4 Recent strategies and developments:
7.4.4.1 Partnerships, Collaborations, and Agreements:
7.4.4.2 Product Launches and Product Expansions:
7.5 AMG Advanced Metallurgical Group N.V.
7.5.1 Company Overview
7.5.2 Financial Analysis
7.5.3 Segmental and Regional Analysis
7.5.4 Research & Development Expenses
7.6 Haydale Graphene Industries PLC
7.6.1 Company Overview
7.6.2 Financial Analysis
7.6.3 Segmental and Regional Analysis
7.7 First Graphene Ltd.
7.7.1 Company Overview
7.7.2 Financial Analysis
7.7.3 Research & Development Expenses
7.8 Graphenea
7.8.1 Company Overview
7.8.2 Recent strategies and developments:
7.8.2.1 Partnerships, Collaborations, and Agreements:
7.8.2.2 Product Launches and Product Expansions:
7.9 Graphene Platform Corporation
7.9.1 Company Overview
7.10. Graphene Square, Inc.
7.10.1 Company Overview
Companies Mentioned
- Samsung Electronics Co., Ltd. (Samsung Group)
- Talga Group Ltd.
- NanoXplore, Inc.
- Versarien plc
- AMG Advanced Metallurgical Group N.V.
- Haydale Graphene Industries PLC
- First Graphene Ltd.
- Graphenea
- Graphene Platform Corporation
- Graphene Square, Inc.
Methodology
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