GoldRhein Exchange Unveils Institutional API Gateway for Faster Trading
GoldRhein Exchange introduces a high-performance institutional API gateway aimed at enhancing strategic trading capabilities, reducing latency, and providing scalable infrastructure for global professional market participants.
Berlin, Germany, May 23, 2025 (GLOBE NEWSWIRE) -- GoldRhein Exchange has officially launched a new Institutional API Gateway, delivering sub-millisecond latency and robust throughput capacity tailored for high-frequency, algorithmic, and institutional traders. This new product release reinforces GoldRhein Exchange's commitment to building secure, high-efficiency infrastructure for advanced trading strategies across global markets.
The newly released gateway connects directly with the GoldRhein Exchange matching engine and supports both REST and WebSocket protocols. It is designed to handle thousands of order requests per second while maintaining real-time market data streaming and immediate order execution. The gateway also enables seamless portfolio monitoring, position reporting, and integrated risk management for multi-strategy teams and institutional desks.'Institutional traders today require infrastructure that is not only fast but secure, compliant, and deeply integrated with risk control frameworks,' said by Markus Engelhardt, a senior infrastructure lead at GoldRhein Exchange. 'This launch demonstrates our continued investment in latency-sensitive systems that meet the technical standards of today's global capital allocators.'The GoldRhein Exchange Institutional API Gateway offers:Ultra-low latency connectivity with global co-location optionsSecure key segmentation and encrypted access tokensReal-time order status and trade reconciliation interfacesEmbedded execution limiters and exposure risk parametersScalable architecture for hedge fund, family office, and broker useIn addition to the technology stack, GoldRhein Exchange has released a comprehensive developer toolkit, onboarding documentation, sandbox environment, and direct support line for API clients. The onboarding program includes assisted integration, test-driven deployment, and compliance-ready operational walkthroughs.This technical rollout follows GoldRhein Exchange's recent expansion in strategic global markets, with operational support centers now active in Europe, North America, and Asia-Pacific. These developments form part of a broader strategy to become the platform of choice for institutional-grade digital asset engagement.Security remains a cornerstone of the release. API access is protected through IP whitelisting, multi-factor authentication, and tiered permission settings. All institutional trading activities are auditable in real-time, with detailed logs and surveillance integration available to meet internal governance or regulatory inspection requirements.GoldRhein Exchange plans to expand the offering with additional modules, including FIX protocol support, cross-venue routing, and advanced execution analytics in future versions. These features aim to reinforce the exchange's positioning as a full-stack solution for digital asset strategy execution.Visit GoldRhein Exchange Institutional API to explore connectivity options, access the developer documentation, and learn more about advanced trading solutions, API security features, and institutional onboarding support.Disclaimer: The information provided in this press release is not a solicitation for investment, nor is it intended as investment advice, financial advice, or trading advice. It is strongly recommended you practice due diligence, including consultation with a professional financial advisor, before investing in or trading cryptocurrency and securities.
CONTACT: Felix Hoffmann support(at)goldrhein.com
Hashtags
Try Our AI Features
Explore what Daily8 AI can do for you:
Comments
No comments yet...
Related Articles
Yahoo
2 hours ago
- Yahoo
Europe Styrene Butadiene Rubber Industry Report 2025, Forecasts to 2032 - Rising Footwear and Construction Demands Propel Growth
The Europe SBR market is set for significant growth, driven by key sectors like automotive and construction. With a projected rise from US$ 11.47 Bn in 2025 to US$ 17.8 Bn by 2032, sustainability and performance are pivotal. Key players are innovating to keep pace with eco-conscious demands and market needs. Dublin, June 17, 2025 (GLOBE NEWSWIRE) -- The "Europe Styrene Butadiene Rubber Market - Industry Analysis, Size, Share, Growth, Trends, and Forecast 2032 - By Product, Technology, Grade, Application, End-user, Region: (Europe)" report has been added to offering. The Europe styrene butadiene rubber (SBR) market is witnessing a substantial upsurge in demand, driven by rapid developments across key industries such as automotive, adhesives, and construction. As manufacturers prioritize sustainability and performance, SBR is emerging as a critical material in high-performance applications. According to latest industry analysis, the Europe styrene butadiene rubber market is projected to expand from US$ 11.47 Bn in 2025 to US$ 17.8 Bn by 2032, reflecting a compound annual growth rate (CAGR) of 6.48% during the forecast InsightsStyrene butadiene rubber continues to gain widespread adoption in Europe due to its unique properties such as high elasticity, abrasion resistance, and cost-effectiveness. These attributes have made it indispensable in tire manufacturing, construction materials, adhesives, and industrial products. The post-pandemic economic recovery, along with growing demand for eco-friendly and durable materials, is further contributing to the market's notable importance is the increasing focus on developing sustainable variants of SBR. Market players are leveraging innovation to enhance product performance while aligning with stringent environmental standards prevalent in the European Union. The dynamic nature of consumer preferences and the pursuit of energy-efficient solutions are reshaping the future of synthetic rubber DriversOne of the primary growth catalysts for the Europe SBR market is the robust automotive sector. As the production and sales of vehicles recover and rise steadily, demand for high-quality tires continues to grow. SBR plays a pivotal role in enhancing tire performance, especially in terms of fuel efficiency, grip, and the expanding construction sector across Europe is boosting SBR usage in applications such as waterproofing membranes, sealants, and coatings. Its durability and resistance to weathering make it a preferred material in both residential and commercial infrastructure rise in consumer awareness around comfort and durability has also led to increased adoption of SBR in the footwear industry. Prominent brands are incorporating SBR-based soles into their products to meet evolving lifestyle demands. Customizable and sustainable footwear options are creating new avenues for market OpportunityThe construction industry is poised to be a key beneficiary of SBR innovations. The growing emphasis on sustainable and high-performance building materials has fueled the demand for SBR-based products in waterproofing, coatings, and adhesives. As governments across Europe allocate more funds to infrastructure development, SBR manufacturers are expected to seize new business opportunities in emerging area of growth is the footwear industry. With consumers showing preference for bespoke, high-comfort designs, SBR-based components are gaining traction. The ability to customize color, design, and material with SBR provides added flexibility to brands, enabling them to cater to niche markets AnalysisGermany is anticipated to lead the European SBR market through 2032, backed by a strong industrial base, particularly in automotive manufacturing. The country's emphasis on innovation and polymer technology has made it a center of excellence for synthetic rubber production. SBR is extensively used in automotive tires, a trend that is expected to strengthen amid rising demand for performance-oriented and fuel-efficient the United Kingdom and France, increasing investment in construction and infrastructure is bolstering the market for SBR-based sealants and coatings. Spain and Italy are also witnessing steady adoption, particularly in adhesives and footwear applications, reflecting the material's broad appeal across various PlayersThe competitive Analysis of the Europe styrene butadiene rubber market features a mix of global and regional players focused on product innovation, strategic partnerships, and of the leading companies in the market include: ARLANXEO Synthos S.A. LANXESS AkzoNobel BASF SE Ineos LyondellBasell Evonik Industries AG SABIC Dow These companies are prioritizing R&D to develop high-performance and sustainable SBR formulations. Collaborations with raw material suppliers and technological investments are supporting their market DevelopmentsIn August 2024, U.S.-based Endurica announced the establishment of a European subsidiary in Luxembourg to serve the growing demand for rubber durability simulation software among automobile and tire manufacturers. This expansion is expected to support innovation in SBR-based product June 2024, Continental AG introduced the UltraContact NXT tire, touted as the company's most sustainable offering to date. It contains up to 65% sustainable materials and demonstrates the evolving role of SBR in the next generation of eco-friendly and RestraintsDespite its advantages, SBR does have limitations that can restrain market growth. Its low resistance to oils, fuels, and harsh chemicals makes it less suitable for certain industrial applications. Additionally, exposure to ozone, UV radiation, and oxygen without proper additives can lead to material raw material prices and increasing regulatory scrutiny on synthetic materials are further adding pressure on manufacturers to explore bio-based and recyclable alternatives. As industries seek more durable and environment-friendly solutions, SBR producers must continuously innovate to remain TrendsThe trend toward low rolling resistance tires has pushed manufacturers to invest in solution styrene butadiene rubber (S-SBR), known for enhancing fuel economy. S-SBR is gaining popularity over traditional emulsion variants due to superior performance in high-end tire applications. Innovation in polymer chemistry is allowing manufacturers to produce SBR blends that meet both performance and environmental adhesives, the use of SBR-based pressure-sensitive adhesives (PSAs) has surged, particularly in packaging and labeling. With e-commerce continuing to grow, demand for advanced adhesive technologies is creating further expansion opportunities for and ConclusionThe Europe styrene butadiene rubber market is on a promising trajectory, with demand surging across automotive, construction, footwear, and adhesives industries. The emphasis on sustainability, combined with advances in manufacturing technologies, is expected to redefine the market facing certain challenges related to material limitations and environmental exposure, the market's long-term outlook remains strong. Strategic initiatives by key players, increased infrastructure spending, and consumer demand for durable and sustainable materials will continue to fuel growth through SegmentationBy Product Type: Emulsion SBR Non-oil Extended Oil Extended Solution SBR Butyl Lithium Phenyl Lithium Other By Application: Tires Footwear Adhesives Construction Other By Country: Germany France United Kingdom Italy Spain Russia Czech Republic Rest of Europe Key Topics Covered: 1. Executive Summary1.1. Europe Styrene Butadiene Rubber Market Snapshot1.2. Future Projections1.3. Key Market Trends1.4. Regional Snapshot, by Value, 20251.5. Analyst Recommendations2. Market Overview2.1. Market Definitions and Segmentations2.2. Market Dynamics2.2.1. Drivers2.2.2. Restraints2.2.3. Market Opportunities2.3. Value Chain Analysis2.4. Porter's Five Forces Analysis2.5. COVID-19 Impact Analysis2.5.1. Supply2.5.2. Demand2.6. Impact of Ukraine-Russia Conflict2.7. Economic Overview2.7.1. World Economic Projections2.8. PESTLE Analysis3. Europe Styrene Butadiene Rubber Market Outlook, 2019-20323.1. Europe Styrene Butadiene Rubber Market Outlook, by Type, Value (US$ Bn) and Volume (Tons), 2019-20323.1.1. Key Highlights3.1.1.1. Emulsion SBR (E-SBR)3.1.1.2. Solution SBR (S-SBR)3.2. Europe Styrene Butadiene Rubber Market Outlook, by Application, Value (US$ Bn) and Volume (Tons), 2019-20323.2.1. Key Highlights3.2.1.1. Tires3.2.1.2. Footwear3.2.1.3. Polymer Modification3.2.1.4. Adhesives & Sealants3.2.1.5. Industrial Rubber Goods3.2.1.6. Construction3.2.1.7. Automotive Parts3.2.1.8. Others3.3. Europe Styrene Butadiene Rubber Market Outlook, by country, Value (US$ Bn) and Volume (Tons), 2019-20323.3.1. Key Highlights3.3.1.1. Germany3.3.1.2. Italy3.3.1.3. France3.3.1.4. U.K.3.3.1.5. Spain3.3.1.6. Russia3.3.1.7. Turkey3.3.1.8. Rest of Europe4. Germany Styrene Butadiene Rubber Market Outlook, 2019-20324.1. Germany Styrene Butadiene Rubber Market Outlook, by Type, Value (US$ Bn) and Volume (Tons), 2019-20324.1.1. Key Highlights4.1.1.1. Emulsion SBR (E-SBR)4.1.1.2. Solution SBR (S-SBR)4.2. Germany Styrene Butadiene Rubber Market Outlook, by Application, Value (US$ Bn) and Volume (Tons), 2019-20324.2.1. Key Highlights4.2.1.1. Tires4.2.1.2. Footwear4.2.1.3. Polymer Modification4.2.1.4. Adhesives & Sealants4.2.1.5. Industrial Rubber Goods4.2.1.6. Construction4.2.1.7. Automotive Parts4.2.1.8. Others4.2.2. BPS Analysis/Market Attractiveness Analysis5. Italy Styrene Butadiene Rubber Market Outlook, 2019-20325.1. Italy Styrene Butadiene Rubber Market Outlook, by Type, Value (US$ Bn) and Volume (Tons), 2019-20325.1.1. Key Highlights5.1.1.1. Emulsion SBR (E-SBR)5.1.1.2. Solution SBR (S-SBR)5.2. Italy Styrene Butadiene Rubber Market Outlook, by Application, Value (US$ Bn) and Volume (Tons), 2019-20325.2.1. Key Highlights5.2.1.1. Tires5.2.1.2. Footwear5.2.1.3. Polymer Modification5.2.1.4. Adhesives & Sealants5.2.1.5. Industrial Rubber Goods5.2.1.6. Construction5.2.1.7. Automotive Parts5.2.1.8. Others5.2.2. BPS Analysis/Market Attractiveness Analysis6. France Styrene Butadiene Rubber Market Outlook, 2019-20326.1. France Styrene Butadiene Rubber Market Outlook, by Type, Value (US$ Bn) and Volume (Tons), 2019-20326.1.1. Key Highlights6.1.1.1. Emulsion SBR (E-SBR)6.1.1.2. Solution SBR (S-SBR)6.2. France Styrene Butadiene Rubber Market Outlook, by Application, Value (US$ Bn) and Volume (Tons), 2019-20326.2.1. Key Highlights6.2.1.1. Tires6.2.1.2. Footwear6.2.1.3. Polymer Modification6.2.1.4. Adhesives & Sealants6.2.1.5. Industrial Rubber Goods6.2.1.6. Construction6.2.1.7. Automotive Parts6.2.1.8. Others6.2.2. BPS Analysis/Market Attractiveness Analysis7. U.K. Styrene Butadiene Rubber Market Outlook, 2019-20327.1. U.K. Styrene Butadiene Rubber Market Outlook, by Type, Value (US$ Bn) and Volume (Tons), 2019-20327.1.1. Key Highlights7.1.1.1. Emulsion SBR (E-SBR)7.1.1.2. Solution SBR (S-SBR)7.2. U.K. Styrene Butadiene Rubber Market Outlook, by Application, Value (US$ Bn) and Volume (Tons), 2019-20327.2.1. Key Highlights7.2.1.1. Tires7.2.1.2. Footwear7.2.1.3. Polymer Modification7.2.1.4. Adhesives & Sealants7.2.1.5. Industrial Rubber Goods7.2.1.6. Construction7.2.1.7. Automotive Parts7.2.1.8. Others7.2.2. BPS Analysis/Market Attractiveness Analysis8. Russia Styrene Butadiene Rubber Market Outlook, 2019-20328.1. Russia Styrene Butadiene Rubber Market Outlook, by Type, Value (US$ Bn) and Volume (Tons), 2019-20328.1.1. Key Highlights8.1.1.1. Emulsion SBR (E-SBR)8.1.1.2. Solution SBR (S-SBR)8.2. Russia Styrene Butadiene Rubber Market Outlook, by Application, Value (US$ Bn) and Volume (Tons), 2019-20328.2.1. Key Highlights8.2.1.1. Tires8.2.1.2. Footwear8.2.1.3. Polymer Modification8.2.1.4. Adhesives & Sealants8.2.1.5. Industrial Rubber Goods8.2.1.6. Construction8.2.1.7. Automotive Parts8.2.1.8. Others8.2.2. BPS Analysis/Market Attractiveness Analysis9. Spain Styrene Butadiene Rubber Market Outlook, 2019-20329.1. Spain Styrene Butadiene Rubber Market Outlook, by Type, Value (US$ Bn) and Volume (Tons), 2019-20329.1.1. Key Highlights9.1.1.1. Emulsion SBR (E-SBR)9.1.1.2. Solution SBR (S-SBR)9.2. Spain Styrene Butadiene Rubber Market Outlook, by Application, Value (US$ Bn) and Volume (Tons), 2019-20329.2.1. Key Highlights9.2.1.1. Tires9.2.1.2. Footwear9.2.1.3. Polymer Modification9.2.1.4. Adhesives & Sealants9.2.1.5. Industrial Rubber Goods9.2.1.6. Construction9.2.1.7. Automotive Parts9.2.1.8. Others9.2.2. BPS Analysis/Market Attractiveness Analysis10. Turkey Styrene Butadiene Rubber Market Outlook, 2019-203210.1. Turkey Styrene Butadiene Rubber Market Outlook, by Type, Value (US$ Bn) and Volume (Tons), 2019-203210.1.1. Key Highlights10.1.1.1. Emulsion SBR (E-SBR)10.1.1.2. Solution SBR (S-SBR)10.2. Turkey Styrene Butadiene Rubber Market Outlook, by Application, Value (US$ Bn) and Volume (Tons), 2019-203210.2.1. Key Highlights10.2.1.1. Tires10.2.1.2. Footwear10.2.1.3. Polymer Modification10.2.1.4. Adhesives & Sealants10.2.1.5. Industrial Rubber Goods10.2.1.6. Construction10.2.1.7. Automotive Parts10.2.1.8. Others10.2.2. BPS Analysis/Market Attractiveness Analysis11. Rest of Europe Styrene Butadiene Rubber Market Outlook, 2019-203211.1. Rest of Europe Styrene Butadiene Rubber Market Outlook, by Type, Value (US$ Bn) and Volume (Tons), 2019-203211.1.1. Key Highlights11.1.1.1. Emulsion SBR (E-SBR)11.1.1.2. Solution SBR (S-SBR)11.2. Rest of Europe Styrene Butadiene Rubber Market Outlook, by Application, Value (US$ Bn) and Volume (Tons), 2019-203211.2.1. Key Highlights11.2.1.1. Tires11.2.1.2. Footwear11.2.1.3. Polymer Modification11.2.1.4. Adhesives & Sealants11.2.1.5. Industrial Rubber Goods11.2.1.6. Construction11.2.1.7. Automotive Parts11.2.1.8. Others11.2.2. BPS Analysis/Market Attractiveness Analysis12. Competitive Landscape12.1. By Application vs by Boiling Point Heat map12.2. Manufacturer vs by Boiling Point Heat map12.3. Company Market Share Analysis, 202512.4. Competitive Dashboard12.5. Company Profiles12.5.1. ARLANXEO Holding B.V.12.5.1.1. Company Overview12.5.1.2. Product Portfolio12.5.1.3. Financial Overview12.5.1.4. Business Strategies and Development12.5.2. Synthos S.A.12.5.3. LANXESS AG12.5.4. Akzo Nobel N.V.12.5.5. BASF SE12.5.6. INEOS Group Holdings S.A.12.5.7. LyondellBasell Industries N.V.12.5.8. Evonik Industries AG12.5.9. Saudi Basic Industries Corporation (SABIC)12.5.10. Dow Inc.13. Appendix13.1. Research Methodology13.2. Report Assumptions13.3. Acronyms and Abbreviations Companies Featured ARLANXEO Synthos S.A. LANXESS AkzoNobel ASF SE Ineos LyondellBasell Evonik Industries AG SABIC Dow For more information about this report visit About is the world's leading source for international market research reports and market data. We provide you with the latest data on international and regional markets, key industries, the top companies, new products and the latest trends. CONTACT: CONTACT: Laura Wood,Senior Press Manager press@ For E.S.T Office Hours Call 1-917-300-0470 For U.S./ CAN Toll Free Call 1-800-526-8630 For GMT Office Hours Call +353-1-416-8900Sign in to access your portfolio
Yahoo
2 hours ago
- Yahoo
Solar Ingot Wafer Market Report 2025: Trends, Forecast and Competitive Analysis to 2031
Innovations in High-Efficiency Wafer Technologies Drive Solar Ingot Wafer Market Expansion Worldwide Dublin, June 17, 2025 (GLOBE NEWSWIRE) -- The "Solar Ingot Wafer Market Report: Trends, Forecast and Competitive Analysis to 2031" has been added to offering. The global solar ingot wafer market is expected to grow with a CAGR of 12.1% from 2025 to 2031. The major drivers for this market are the rising demand for solar energy, the growing adoption of solar power systems, and the increasing technological advancements in solar cells. The future of the global solar ingot wafer market looks promising with opportunities in the mono solar cell and multi solar cell markets. Key Highlights by Segment Within the type category, monocrystalline is expected to witness higher growth over the forecast period. Within the application category, mono solar cell is expected to witness higher growth. In terms of region, APAC is expected to witness the highest growth over the forecast period. Emerging Trends in the Solar Ingot Wafer Market The solar ingot wafer market is rapidly evolving with significant transformations driven by advancements in materials science, manufacturing, and policy support. Trends such as high-efficiency wafer technologies, larger wafer sizes, advanced materials usage, automation, and sustainability initiatives are evident. These trends aim to reduce costs and improve efficiency, catering to global energy needs and environmental goals. Recent Developments in the Solar Ingot Wafer Market Recent market developments focus on cost efficiency and increased production capacity. Key advances include the shift to larger wafer formats, enhancements in PERC technology, breakthroughs in perovskite wafers, recycling initiatives, and AI integration in manufacturing. These advancements enhance efficiency and sustainability, driving further market growth. Strategic Growth Opportunities in the Solar Ingot Wafer Market The market offers growth opportunities in utility-scale projects, commercial and residential installations, energy storage integration, and emerging markets. With rising global demand for clean energy, manufacturers can capitalize on these opportunities, enhancing their market presence and supporting the transition to renewable energy. Solar Ingot Wafer Market Drivers and Challenges The solar ingot wafer market is driven by technological advancements, supportive policies, and increasing solar energy demand. However, challenges such as high production costs, supply chain constraints, and competition from alternative technologies exist. Addressing these drivers and challenges will be pivotal for future market success. Country-wise Outlook for the Solar Ingot Wafer Market The solar ingot wafer industry is pivotal in transitioning to renewable energy. The United States, China, Germany, India, and Japan are key players, driving innovation and production. These countries focus on enhancing wafer efficiency, reducing costs, and expanding manufacturing capabilities to meet global solar energy demands. Key Topics Covered1. Executive Summary2. Global Solar Ingot Wafer Market: Market Dynamics2.1: Introduction, Background, and Classifications2.2: Supply Chain2.3: Industry Drivers and Challenges3. Market Trends and Forecast Analysis from 2019 to 20313.1. Macroeconomic Trends (2019-2024) and Forecast (2025-2031)3.2. Global Solar Ingot Wafer Market Trends (2019-2024) and Forecast (2025-2031)3.3: Global Solar Ingot Wafer Market by Type3.4: Global Solar Ingot Wafer Market by Application4. Market Trends and Forecast Analysis by Region from 2019 to 20314.1: Global Solar Ingot Wafer Market by Region4.2: North American Solar Ingot Wafer Market4.3: European Solar Ingot Wafer Market4.4: APAC Solar Ingot Wafer Market4.5: RoW Solar Ingot Wafer Market5. Competitor Analysis5.1: Product Portfolio Analysis5.2: Operational Integration5.3: Porter's Five Forces Analysis6. Growth Opportunities and Strategic Analysis6.1: Growth Opportunity Analysis6.2: Emerging Trends in the Global Solar Ingot Wafer Market6.3: Strategic Analysis7. Company Profiles of Leading Players7.1: GCL7.2: LDK7.3: China Jinglong7.4: Yingli Solar7.5: ReneSola7.6: Green Energy Technology7.7: Sornid Hi-Tech7.8: Jinko Solar7.9: Nexolon7.10: Solargiga Energy HoldingsFor more information about this report visit About is the world's leading source for international market research reports and market data. We provide you with the latest data on international and regional markets, key industries, the top companies, new products and the latest trends. CONTACT: CONTACT: Laura Wood,Senior Press Manager press@ For E.S.T Office Hours Call 1-917-300-0470 For U.S./ CAN Toll Free Call 1-800-526-8630 For GMT Office Hours Call +353-1-416-8900Error in retrieving data Sign in to access your portfolio Error in retrieving data Error in retrieving data Error in retrieving data Error in retrieving data
Yahoo
2 hours ago
- Yahoo
Global Market for Carbon Nanotubes Report 2026-2036, with Comprehensive Profiles of 180+ Companies Across the Value Chain
CNTs, particularly multi-walled (MWCNTs) and single-walled (SWCNTs) variants, are revolutionizing industries due to their exceptional mechanical, electrical, and thermal properties. MWCNTs dominate due to their cost-effectiveness, while SWCNTs, valued at $2 billion by 2036, excel in high-tech applications like electronics and quantum computing. Energy storage emerges as a top growth sector, with CNTs enhancing lithium-ion batteries, crucial for electric vehicles and renewable energy. CNTs represent the future of next-gen technologies across aerospace, energy, and electronics, propelled by global trends in energy transition, space exploration, and sustainable manufacturing. Dublin, June 17, 2025 (GLOBE NEWSWIRE) -- The "Global Market for Carbon Nanotubes 2026-2036" report has been added to offering. The global carbon nanotubes (CNTs) market represents one of the most dynamic and rapidly expanding segments of the advanced materials industry, with market valuations projected to grow from >$5 billion to more than $25 billion by 2036. This exceptional growth trajectory reflects the transformative potential of these cylindrical carbon structures, which possess extraordinary mechanical, electrical, and thermal properties that are revolutionizing multiple industries across the next decade. The CNT market is primarily divided into two main categories: multi-walled carbon nanotubes (MWCNTs) and single-walled carbon nanotubes (SWCNTs). By 2036, MWCNTs are projected to maintain their dominance, driven by their superior mechanical strength, electrical conductivity, and cost-effectiveness in large-scale applications. SWCNTs, while commanding premium pricing for specialized applications, are expected to reach $2.0 billion by 2036, finding critical roles in next-generation electronics, quantum computing, and advanced biomedical applications where their unique single-layer structure provides unmatched performance characteristics. Energy storage emerges as the fastest-growing sector, driven by the global transition to electric vehicles and renewable energy infrastructure. CNTs serve as superior conductive additives in lithium-ion batteries, creating more effective electrical percolation networks at lower weight loadings than conventional carbons, while enabling faster charge transfer and higher battery capacity through their exceptional electrical conductivity and lightweight nature. The automotive industry's accelerating shift toward electrification, coupled with grid-scale energy storage demands, positions CNTs as essential materials for next-generation battery technologies. CNT-reinforced materials are revolutionizing aerospace and automotive applications through lightweight structural components that maintain superior strength, enabling aircraft manufacturers to achieve significant weight reductions while enhancing fuel efficiency and safety. In the construction industry, CNT-enhanced concrete and coatings provide unprecedented durability and functionality. Electronics applications showcase CNTs' potential in flexible displays, transparent conductive films, sensors, and emerging quantum computing technologies. Their unique one-dimensional structure and tunable electronic properties make them invaluable for next-generation transistors, memory devices, and wearable electronics. The production landscape is undergoing fundamental transformation, with chemical vapor deposition (CVD) technology maintaining its dominance due to scalability and cost-effectiveness. By 2036, advanced manufacturing techniques including floating catalyst CVD, plasma-enhanced processes, and emerging green synthesis methods using captured CO2 and waste feedstocks are expected to revolutionize production economics and environmental sustainability. Major capacity expansions by industry leaders like LG Chem and OCSiAl are scaling production to meet demand growth across battery, electronics, and composite applications. The integration of artificial intelligence and machine learning in CNT synthesis is enabling unprecedented control over nanotube chirality, diameter, and properties, opening pathways to application-specific CNT variants that were previously impossible to produce at scale. The CNT market's future trajectory through 2036 is intrinsically linked to mega-trends including the global energy transition, space exploration initiatives, quantum computing development, and advanced manufacturing technologies. As production scales increase exponentially and costs decrease through technological breakthroughs, carbon nanotubes are positioned to become fundamental building blocks for next-generation technologies, bridging the gap between laboratory innovation and commercial reality across aerospace, automotive, energy, electronics, and emerging biotechnology sectors. The convergence of CNTs with artificial intelligence, robotics, and sustainable manufacturing represents a paradigm shift toward intelligent materials that will define the technological landscape of the next decade. Report contents include: Market Size & Forecasts: Global carbon nanotubes market projections from 2026-2035 with detailed volume (metric tons) and revenue analysis Comprehensive segmentation by product type (MWCNTs, SWCNTs, DWCNTs, VACNTs, FWCNTs) Regional market analysis covering Asia Pacific, North America, Europe, and emerging markets Application-specific demand forecasts across 22 major end-use sectors Technology & Production Analysis: Detailed evaluation of synthesis methods including CVD, arc discharge, laser ablation, and emerging green production technologies Production capacity analysis of manufacturers with current and planned expansions Breakthrough technologies in controlled growth, hybrid CNTs, and carbon capture-derived production Comparative assessment of manufacturing costs, scalability, and quality control Applications & Market Opportunities: Energy storage systems: Li-ion batteries, supercapacitors, and next-generation energy technologies Electronics: transistors, memory devices, flexible displays, and quantum computing applications Composites & materials: aerospace, automotive, construction, and high-performance polymers Emerging markets: thermal interface materials, sensors, filtration, and biomedical applications Competitive Intelligence: Comprehensive profiles of 180 companies across the value chain Strategic partnerships, licensing agreements, and commercial collaborations Patent landscape analysis and intellectual property trends Technology readiness levels and commercialization timelines Regulatory & Safety Framework: Global regulations governing nanomaterials production and applications Safety protocols, exposure monitoring, and environmental impact assessments Compliance requirements across major markets and industry standards Pricing & Market Dynamics: Detailed pricing analysis for MWCNTs, SWCNTs, and specialty variants Cost structure evolution and price forecasting through 2035 Supply chain analysis and raw material availability Market challenges and growth drivers identification Strategic Insights Include: Market entry strategies for new participants and expansion opportunities for existing players Investment analysis and ROI projections across application segments Technology roadmaps and innovation pathways Risk assessment and mitigation strategies Future market scenarios and disruptive technology impacts The report features over 180 company profiles, including: 3D Strong Birla Carbon BNNano BNNT BNNT Technology Limited Brewer Science Bufa C12 Cabot Corporation Canatu Carbice Corporation Carbon Corp Carbon Fly Carbonova CENS Materials CHASM Advanced Materials DexMat Huntsman (Miralon) JEIO LG Energy Solution Mechnano Meijo Nano Carbon Molecular Rebar Design LLC Nano-C Nanocyl Nanoramic Laboratories NanoRial NAWA Technologies Nemo Nanomaterials NEO Battery Materials NoPo Nanotechnologies NTherma OCSiAl PARC (Sensors) Raymor Industries Samsung SDI (Battery) Shinko Carbon Nanotube Thermal Interface Materials SmartNanotubes Technologies Sumitomo Electric (Carbon Nanotube) TrimTabs UP Catalyst Wootz Zeon Zeta Energy Key Topics Covered: 1 EXECUTIVE SUMMARY1.1 The global market for carbon nanotubes1.1.1 Multi-walled carbon nanotubes (MWCNTs)1.1.2 Single-walled carbon nanotubes (SWCNTs)1.1.3 Double, Few and Thin-Walled CNTs1.2 Market Outlook 2025 and beyond1.3 Commercial CNT-based products1.4 Market Challenges1.5 CNTs Market Analysis1.5.1 Manufacturing Landscape: From Laboratory to Industrial Scale1.5.2 Market Dynamics: Supply, Demand, and Competitive Forces1.5.3 Energy Storage: The Catalyst for Market Transformation1.5.4 Polymer Enhancement: Multifunctional Material Solutions1.5.5 Emerging Applications1.5.6 Competitive Dynamics1.5.7 Technology Roadmap and Future Developments1.5.8 Challenges and Limitations: Addressing Market Barriers1.5.9 Market Evolution and Growth Projections1.5.10 Leading Industry Players LG Chem (South Korea) Jiangsu Cnano Technology (China) OCSiAl Group (Luxembourg/Russia) Cabot Corporation (United States) JEIO Co., Ltd. (South Korea) CHASM Advanced Materials (United States) 1.6 CNT Pricing 2 OVERVIEW OF CARBON NANOTUBES2.1 Properties2.2 Comparative properties of CNTs2.3 Carbon nanotube materials2.3.1 Variations within CNTs2.3.2 High Aspect Ratio CNTs2.3.3 Dispersion technology2.3.4 Multi-walled nanotubes (MWCNT)2.3.5 Single-wall carbon nanotubes (SWCNT)2.3.5.3 Comparison between MWCNTs and SWCNTs2.3.6 Double-walled carbon nanotubes (DWNTs)2.3.7 Vertically aligned CNTs (VACNTs)2.3.8 Few-walled carbon nanotubes (FWNTs)2.3.9 Carbon Nanohorns (CNHs)2.3.10 Carbon Onions2.3.11 Boron Nitride nanotubes (BNNTs)2.4 Intermediate products2.4.1 Definitions2.4.2 CNT Sheets2.4.3 CNT Yarns2.4.3.4 Manufacturing Methods2.4.3.5 Market players2.4.4 CNT Films2.4.5 CNT Paper/Mats2.4.6 CNT Coatings/Inks2.4.7 CNT Array Strips 3 CARBON NANOTUBE SYNTHESIS AND PRODUCTION3.1 Arc discharge synthesis3.2 Chemical Vapor Deposition (CVD)3.2.1 Thermal CVD3.2.2 Plasma enhanced chemical vapor deposition (PECVD)3.2.3 Emerging processes3.3 High-pressure carbon monoxide synthesis3.3.1 High Pressure CO (HiPco)3.3.2 CoMoCAT3.4 Combustion synthesis3.5 Controlled growth of SWCNTs3.6 Hybrid CNTs3.7 Flame synthesis3.8 Laser ablation synthesis3.9 Vertically aligned nanotubes production3.10 Silane solution method3.11 By-products from carbon capture3.11.1 CO2 derived products via electrochemical conversion3.11.2 CNTs from green or waste feedstock3.11.3 Advanced carbons from green or waste feedstocks3.11.4 Captured CO?as a CNT feedstock3.11.5 Electrolysis in molten salts3.11.6 Methane pyrolysis3.11.7 Carbon separation technologies3.11.8 Producers3.12 Advantages and disadvantages of CNT synthesis methods 4 REGULATIONS4.1 Regulation and safety of CNTs4.2 Global regulations4.3 Global Regulatory Bodies for Nanomaterials4.4 Harmonized Classification of MWCNTs4.5 Gaps in the Current Regulations4.6 CNT Safety and Exposure 5 CARBON NANOTUBES PATENTS 6 Carbon Nanotubes Pricing6.1 MWCNTs6.2 SWCNTs and FWCNTs 7 MARKETS FOR CARBON NANOTUBES7.1 Energy Storage: Batteries7.2 Energy Storage: Supercapacitors7.3 Polymer Additives and Elastomers7.4 3D Printing7.5 Adhesives7.6 Aerospace7.7 Electronics7.8 Quantum Computing7.9 Rubber and Tires7.10 Automotive7.11 Conducive Inks7.12 Construction7.13 Filtration7.14 Fuel Cells7.15 Life Sciences and Medicine7.16 Lubricants7.17 Oil and Gas7.18 Paints and Coatings7.19 Photovoltaics7.20 Sensors7.21 Smart and Electronic Textiles7.22 Thermal Interface Materials7.23 Power Cables 8 COMPANY PROFILES: MULTI-WALLED CARBON NANOTUBES (141 company profiles) 9 COMPANY PROFILES: SINGLE-WALLED CARBON NANOTUBES (16 company profiles) 10 COMPANY PROFILES: OTHER TYPES (Boron Nitride nanotubes, double-walled nanotubes etc.) (5 company profiles) For more information about this report visit About is the world's leading source for international market research reports and market data. We provide you with the latest data on international and regional markets, key industries, the top companies, new products and the latest trends. CONTACT: CONTACT: Laura Wood,Senior Press Manager press@ For E.S.T Office Hours Call 1-917-300-0470 For U.S./ CAN Toll Free Call 1-800-526-8630 For GMT Office Hours Call +353-1-416-8900Error in retrieving data Sign in to access your portfolio Error in retrieving data Error in retrieving data Error in retrieving data Error in retrieving data
