The global 3D graphene market was valued at $2.5 million in 2021, and is projected to reach $39.1 million by 2031, growing at a CAGR of 31.6% from 2022 to 2031.
3D graphene-based architectures are directly used in supercapacitors. 3D graphene architectures are promising for use as electrodes in supercapacitors due to the combination of the 3D interconnection structure and the excellent electron conductivity of graphene. 3D graphene material can be referred to as a graphene aerogel or a 3D-printed graphene nanostructure that is created using graphene inks. Graphene is a one-atom-thick layer of carbon atoms arranged in a hexagonal pattern. When multiple layers of graphene are stacked on top of each other, the resulting material is known as graphite, which is commonly used as the "lead" in pencils.
However, the mechanical properties of graphite are relatively weak due to the close stacking of the graphene sheets. To overcome this, a porous version of graphene, known as a graphene aerogel, can be created by separating the graphene sheets with air-filled pores. This allows the three-dimensional structure to retain the unique properties of graphene. In addition, 3D graphene is used in the chemical industry as an effective catalyst because of its properties such as high surface area and adsorption power. The surge in demand for chemicals worldwide is expected to increase 3D graphene demand and thus, drive the growth of the global 3D graphene industry.
3D graphene is used extensively in nuclear power plants. A million tons of CO2 are emitted during the production of the heavy water needed in nuclear power plants to cool the reactors, which is also expensive to generate. A more cost-effective and environment-friendly way to create heavy water is by using 3D graphene membranes, according to researchers at the University of Manchester. As comparison to present technology, 3D graphene could help lower the energy costs associated with producing heavy water and decontamination in nuclear power plants by more than 100 times. The potential to effectively separate sub-atomic particles due to the special characteristics of 3D graphene makes this method effective and economical.
The simultaneous electrostatic and hydrophobic interactions that can be produced, along with the large specific surface area, indicate that 3D graphene has a bright future in the absorption of water pollutants. It is used in water purification and removing germs and other impurities. In recent times, 3D graphene-based macrostructures (3D GBMs) have attracted more interest because of their enormous potential for use in the water treatment industry. 3D GBMs are fascinating materials for water purification through adsorption, capacitive deionization, and solar distillation because of their distinctive structural characteristics such as large surface area and physically interconnected porous network and excellent qualities like high electrical conductivity, good chemical/thermal stability, ultra lightness, and high solar-to-thermal conversion efficiency. Moreover, 3D GBMs have a much greater number of potential uses in water treatment since they may be used as frameworks to encapsulate powder nanomaterials and create monolithic adsorbents and photo-/electrocatalysts.
The 3D graphene market is segmented into application and region. By application, the market is divided into energy storage, sensors, catalysis, and others. Region-wise, the market is analyzed across North America, Europe, Asia-Pacific, and LAMEA. The key players operating in the 3D graphene market are ACS Material, American Elements, CVD Equipment Corporation, G6 Materials Corp., Graphex Group, Integrated Graphene Ltd., Lyten, Inc., Nano Dimension, NANOCHEMAZONE and Ultrananotech Private Limited.
3D graphene-based architectures are directly used in supercapacitors. 3D graphene architectures are promising for use as electrodes in supercapacitors due to the combination of the 3D interconnection structure and the excellent electron conductivity of graphene. 3D graphene material can be referred to as a graphene aerogel or a 3D-printed graphene nanostructure that is created using graphene inks. Graphene is a one-atom-thick layer of carbon atoms arranged in a hexagonal pattern. When multiple layers of graphene are stacked on top of each other, the resulting material is known as graphite, which is commonly used as the "lead" in pencils.
However, the mechanical properties of graphite are relatively weak due to the close stacking of the graphene sheets. To overcome this, a porous version of graphene, known as a graphene aerogel, can be created by separating the graphene sheets with air-filled pores. This allows the three-dimensional structure to retain the unique properties of graphene. In addition, 3D graphene is used in the chemical industry as an effective catalyst because of its properties such as high surface area and adsorption power. The surge in demand for chemicals worldwide is expected to increase 3D graphene demand and thus, drive the growth of the global 3D graphene industry.
3D graphene is used extensively in nuclear power plants. A million tons of CO2 are emitted during the production of the heavy water needed in nuclear power plants to cool the reactors, which is also expensive to generate. A more cost-effective and environment-friendly way to create heavy water is by using 3D graphene membranes, according to researchers at the University of Manchester. As comparison to present technology, 3D graphene could help lower the energy costs associated with producing heavy water and decontamination in nuclear power plants by more than 100 times. The potential to effectively separate sub-atomic particles due to the special characteristics of 3D graphene makes this method effective and economical.
The simultaneous electrostatic and hydrophobic interactions that can be produced, along with the large specific surface area, indicate that 3D graphene has a bright future in the absorption of water pollutants. It is used in water purification and removing germs and other impurities. In recent times, 3D graphene-based macrostructures (3D GBMs) have attracted more interest because of their enormous potential for use in the water treatment industry. 3D GBMs are fascinating materials for water purification through adsorption, capacitive deionization, and solar distillation because of their distinctive structural characteristics such as large surface area and physically interconnected porous network and excellent qualities like high electrical conductivity, good chemical/thermal stability, ultra lightness, and high solar-to-thermal conversion efficiency. Moreover, 3D GBMs have a much greater number of potential uses in water treatment since they may be used as frameworks to encapsulate powder nanomaterials and create monolithic adsorbents and photo-/electrocatalysts.
The 3D graphene market is segmented into application and region. By application, the market is divided into energy storage, sensors, catalysis, and others. Region-wise, the market is analyzed across North America, Europe, Asia-Pacific, and LAMEA. The key players operating in the 3D graphene market are ACS Material, American Elements, CVD Equipment Corporation, G6 Materials Corp., Graphex Group, Integrated Graphene Ltd., Lyten, Inc., Nano Dimension, NANOCHEMAZONE and Ultrananotech Private Limited.
IMPACT OF COVID-19 ON THE GLOBAL 3D GRAPHENE MARKET
During the COVID-19 pandemic, the final investment decision for electric vehicles is getting delayed by the key automotive players, owing to decreased automotive sales. This has resulted in decrease in demand for graphene as graphene is used in batteries, composites, and others. 3D graphene is widely used in electronic, automotive, and other sectors. These industries have gained momentum and started their production process smoothly. Hence, the demand for 3D graphene has increased post COVID.Key Benefits For Stakeholders
- This report provides a quantitative analysis of the market segments, current trends, estimations, and dynamics of the 3d graphene market analysis from 2021 to 2031 to identify the prevailing 3d graphene market opportunities.
- The market research is offered along with information related to key drivers, restraints, and opportunities.
- Porter's five forces analysis highlights the potency of buyers and suppliers to enable stakeholders make profit-oriented business decisions and strengthen their supplier-buyer network.
- In-depth analysis of the 3d graphene market segmentation assists to determine the prevailing market opportunities.
- Major countries in each region are mapped according to their revenue contribution to the global market.
- Market player positioning facilitates benchmarking and provides a clear understanding of the present position of the market players.
- The report includes the analysis of the regional as well as global 3d graphene market trends, key players, market segments, application areas, and market growth strategies.
Key Market Segments
By Application
- Composites
- Sensors
- Energy storage
- Others
By Region
- North America
- U.S.
- Canada
- Mexico
- Europe
- Germany
- UK
- France
- Italy
- Spain
- Rest of Europe
- Asia-Pacific
- China
- India
- South Korea
- Japan
- Australia
- Rest of Asia-Pacific
- LAMEA
- Brazil
- Saudi Arabia
- South Africa
- Rest of LAMEA
Key Market Players
- AMERICAN ELEMENTS
- Integrated Graphene Ltd.
- ACS Material
- Ultrananotech Private Limited.
- Nano Dimension
- Graphex Group
- Lyten, Inc.
- NANOCHEMAZONE
- CVD Equipment Corporation
- G6 Materials Corp.
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Table of Contents
CHAPTER 1: INTRODUCTION
CHAPTER 2: EXECUTIVE SUMMARY
CHAPTER 3: MARKET OVERVIEW
CHAPTER 4: 3D GRAPHENE MARKET, BY APPLICATION
CHAPTER 5: 3D GRAPHENE MARKET, BY REGION
CHAPTER 6: COMPETITIVE LANDSCAPE
CHAPTER 7: COMPANY PROFILES
List of Tables
List of Figures
Companies Mentioned
- AMERICAN ELEMENTS
- Integrated Graphene Ltd.
- ACS Material
- Ultrananotech Private Limited.
- Nano Dimension
- Graphex Group
- Lyten, Inc.
- NANOCHEMAZONE
- CVD Equipment Corporation
- G6 Materials Corp.
Methodology
The analyst offers exhaustive research and analysis based on a wide variety of factual inputs, which largely include interviews with industry participants, reliable statistics, and regional intelligence. The in-house industry experts play an instrumental role in designing analytic tools and models, tailored to the requirements of a particular industry segment. The primary research efforts include reaching out participants through mail, tele-conversations, referrals, professional networks, and face-to-face interactions.
They are also in professional corporate relations with various companies that allow them greater flexibility for reaching out to industry participants and commentators for interviews and discussions.
They also refer to a broad array of industry sources for their secondary research, which typically include; however, not limited to:
- Company SEC filings, annual reports, company websites, broker & financial reports, and investor presentations for competitive scenario and shape of the industry
- Scientific and technical writings for product information and related preemptions
- Regional government and statistical databases for macro analysis
- Authentic news articles and other related releases for market evaluation
- Internal and external proprietary databases, key market indicators, and relevant press releases for market estimates and forecast
Furthermore, the accuracy of the data will be analyzed and validated by conducting additional primaries with various industry experts and KOLs. They also provide robust post-sales support to clients.
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