超級電容材料市場報告：趨勢、預測和競爭分析（至 2031 年）

全球超級電容材料市場未來前景光明，在家用電子電器、工業和運輸市場都存在機會。預計2025年至2031年期間全球超級電容材料市場將以10.5%的複合年成長率成長。該市場的主要驅動力是該技術在電動車中的應用不斷擴大、再生能源來源的使用不斷增加以及對基於超級電容的家用電器的需求不斷成長。

• Lucintel預測，預測期內活性碳將成為材料中成長率最高的材料。
• 預計亞太地區將在預測期內經歷最高成長。

超級電容材料市場的策略性成長機會

超級電容材料市場提供了推動成長的新機會。新材料和新技術的發展為超級電容的整合提供了更好的可能性，特別是在汽車、可再生和消費產業。因此，必須探索和利用這些成長機會來推動市場發展並推動超級電容技術的接受度。

• 汽車應用：電動車（EV）和混合動力汽車正在推動汽車產業超級電容應用的顯著成長。除其他用途外，超級電容還被整合到汽車系統中，用於儲存快速加速和再生煞車時所需的能量。其高功率密度和快速充電和放電能力提高了汽車性能和效率。對於這項應用，人們對開發更先進的超級電容材料和技術的興趣日益濃厚。
• 可再生能源系統的整合：超級電容在風能、太陽能等可再生能源系統中的本質功能是透過儲存系統吸收和平衡能量負載。這些設備具有高充電和放電率，是穩定電力和提高可再生能源可靠性的理想選擇。將超級電容納入能源儲存系統的趨勢是全球向清潔能源替代轉變帶來的成長的主要驅動力。
• 家用電子電器：在家用電子電器市場，超級電容被用於智慧型手機、筆記型電腦和穿戴式裝置等設備，以提高電源效能並延長電池壽命。它們體積小、功率密度極高，適合快速輸送能量和高效電源管理。這一成長機會正在擴大超級電容材料市場並激發新應用和新設備的開發。
• 工業自動化：大多數工業自動化系統都擴大使用超級電容，例如備用電源、不斷電系統(UPS) 和能源回收系統。超級電容已被證明是可靠且反應靈敏的，使其適合關鍵的工業任務。工業自動化和智慧製造的興起推動了對能夠在惡劣工業條件下運作的新型先進超級電容材料的需求。

汽車應用、可再生能源整合、家用電器、工業自動化和智慧電網領域的發展正在為超級電容材料產業創造新的市場機會。這些領域正在推動市場向前發展，並導致超級電容在各種應用中的使用增加。這些應用不僅會推動成長，而且隨著新技術的出現，還會改變能源儲存系統的範圍。

超級電容材料市場促進因素與挑戰

超級電容材料市場是一個複雜的結構，由決定其成長和發展的多種驅動和阻礙因素因素組成。市場動態受到技術因素、產業和政府政策的嚴重影響。了解這些因素對於製造高效的超級電容技術和提高超級電容性能至關重要。

推動超級電容材料市場發展的因素有：

• 技術改進：新材料和生產技術的開發是推動超級電容材料市場發展的主要力量之一。確保石墨烯電極和導電聚合物等電活性材料電導性的材料組成的新發展正在提高超級電容器的性能。製造技術的進步使得生產能力和成本的競爭更加激烈。這些技術變革對市場發展和拓寬超級電容的應用範圍產生了積極的促進作用。
• 對高性能能源儲存的需求不斷增加：汽車、可再生能源和家用電子電器等領域對高性能能源儲存的需求不斷成長，這是推動超級電容材料市場成長的關鍵因素。超級電容具有充放電快速、功率密度高等特點，對於需要可靠、高效能源儲存的設備來說不可或缺。對性能和能源效率的關注將對市場產生積極影響。
• 投資研發：研發（R&D）工作對於改進超級電容材料和技術至關重要。政府和私人企業的加強努力將增強探索更好的材料、技術和應用的政治意願。我們的研發項目不斷突破界限、不斷創新並推動先進超級電容器解決方案的發展。這筆資金對於確保超級電容材料市場的競爭力和成長至關重要。

超級電容材料市場面臨的挑戰是：

• 材料成本：超級電容材料產業面臨的一個重大缺點是：石墨烯和奈米碳管等先進材料的價格高昂。原料價格昂貴，製造工序複雜，增加了生產成本。降低這些超級電容的製造成本是跟上能源儲存領域競爭對手的關鍵。
• 無法規模化：超級電容材料的市場需求與產量有差距。挑戰在於，大量生產先進材料和零件通常很複雜，而且成本高。需要開發易於擴大規模和增加產量的製造流程以滿足市場需求並降低成本。
• 技術限制：與超級電容的性能和耐用性相關的某些技術限制可能會阻礙市場成長。與傳統電池相比，能量密度較低、循環壽命較短等問題阻礙了其廣泛應用。解決這些技術限制以及超級電容的開發是正在進行的研究和開發活動的重點。

超級電容材料市場受到技術創新、對高能量能源儲存的需求不斷成長、研發資金籌措、社會和環境影響以及經濟發展等動態趨勢的驅動。儘管推動市場成長的幾個因素是有利的，例如創新技術和市場需求，但與材料成本、生產能力和加工限制相關的問題帶來了挑戰。必須解決這些促進因素和挑戰，才能推動超級電容技術的發展，並在超級電容市場中形成永續的競爭優勢。

目錄

第1章執行摘要

第 2 章全球超級電容材料市場：市場動態

• 簡介、背景和分類
• 供應鏈
• 產業促進因素與挑戰

第 3 章 市場趨勢與預測分析（2019-2031）

• 宏觀經濟趨勢（2019-2024）與預測（2025-2031）
• 全球超級電容材料市場趨勢（2019-2024）及預測（2025-2031）
• 全球超級電容材料市場（按材料）
  • 活性碳
  • 碳衍生品
  • 金屬氧化物
  • 導電聚合物
  • 其他
• 全球超級電容材料市場依最終用途分類
  • 家用電子電器
  • 產業
  • 運輸
  • 其他

第 4 章區域市場趨勢與預測分析（2019-2031 年）

• 全球超級電容材料市場（按區域）
• 北美超級電容材料市場
• 歐洲超級電容材料市場
• 亞太超級超級電容材料市場
• 世界其他地區的超級電容材料市場

第5章 競爭分析

• 產品系列分析
• 營運整合
• 波特五力分析

第6章 成長機會與策略分析

• 成長機會分析
  • 全球超級電容材料市場成長機會（按材料分類）
  • 全球超級電容材料市場成長機會（依最終用途分類）
  • 全球超級電容材料市場各區域成長機會
• 全球超級電容材料市場的新趨勢
• 戰略分析
  • 新產品開發
  • 全球超級電容材料市場產能擴張
  • 全球超級電容材料市場的企業合併
  • 認證和許可

第7章主要企業簡介

• ARKEMA
• BASF
• Bayer Material Science
• Cabot
• Calgon Carbon
• Carbon NT&F
• Carbotech
• Hitachi Chemicals
• NEI
• Targray Technology

The future of the global supercapacitor material market looks promising with opportunities in the consumer electronic, industrial, and transportation markets. The global supercapacitor material market is expected to grow with a CAGR of 10.5% from 2025 to 2031. The major drivers for this market are the growing application of this technology in electric vehicles, the increasing use of renewable energy sources, and the rising demand for supercapacitor-based consumer electronics.

• Lucintel forecasts that, within the material category, activated carbon is expected to witness the highest growth over the forecast period.
• In terms of regions, APAC is expected to witness the highest growth over the forecast period.

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Emerging Trends in the Supercapacitor Material Market

The supercapacitor material market continues to undergo drastic transformation because of the development of new trends in the field of materials science, production processes, and fields of application. This is encouraging new developments and improving existing supercapacitor systems that facilitate the use of supercapacitors in more applications. Such developments include the introduction of new electrode materials, the creation of hybrid energy storage systems, and the evolution of sustainable design principles.

• New Materials for Electrode Construction: One of the key forces driving the growth of the supercapacitor material market is the introduction of new electrode materials, which include graphene, carbon nanotubes, and conductive polymers. Many of these materials have a high surface area, excellent conductivity, and impressive electrochemical activity. More active electrode types are responsible for higher energy and power density, thus increasing the efficiency of supercapacitors so that they can compete with batteries.
• Integration with Energy Storage Systems: There are already attempts to integrate supercapacitors with other energy storage systems, including batteries or hybrid systems that use both batteries and supercapacitors. The purpose of this practice is to achieve the fast charge qualities of supercapacitors while gaining the longer charge retention properties of batteries. Such improvements in integration are said to enhance the reliability of energy applications while reducing the performance issues in electric vehicles and renewable energy systems.
• Emphasis on Sustainability: Sustainability is becoming the focal point of interest in the supercapacitor material market, directing resources toward the development of biodegradable and recyclable materials. Considerable effort is being made by researchers and manufacturers to mitigate the environmental effects associated with supercapacitor production and disposal. This trend relates to broader ambitions of reducing carbon emissions and highlighting the significance of green technologies, paving the way for more environmentally friendly supercapacitor designs.
• Reduction of Costs and Efficiency of Production: To advance in the supercapacitor market, trends in cost reduction and manufacturing efficiency are important. It is expected that new manufacturing concepts and materials will cut production costs, thereby reducing the prices of supercapacitors. Better production techniques, such as the synthesis of novel materials in bulk and automated assembly techniques, will lower prices while improving the scope of use.

In the supercapacitor material market, emerging trends such as the development of novel electrode materials, energy storage system integration, and sustainability are disrupting the market. The push to lower costs, enhance manufacturing processes, and improve the intensity of research and development is spurring innovations, thereby increasing the scope of supercapacitor applications. Such trends are also improving the effectiveness, affordability, and ecological friendliness of supercapacitor technologies, making them more viable for use in various sectors.

Recent Developments in the Supercapacitor Material Market

The supercapacitor material market has been undergoing rapid changes due to the new developments reported in this sector. New materials and technology implementations are optimizing performance, cost, and applicability. As there is a growing focus on supercapacitor applications in industries such as automotive and green energy, the quest for novel materials with higher energy and power characteristics must continue.

• Progress in Carbon-Based Materials: Modifications of available carbon-based materials, specifically graphene and carbon nanotubes, mainly improve supercapacitors. These materials have high mechanical strength, specific surface area, and electrical conductivity, which lead to high power and energy density. Enhancements in carbon composites are also increasing the mechanical properties and structural and thermal stability of supercapacitors. The incorporation of modern carbon material technologies is making supercapacitors attractive energy accumulators, increasing their use in application areas that require high performance.
• Use of Conductive Polymers: The incorporation of conductive polymers in supercapacitor materials has enhanced energy storage performance in terms of energy density and charge-discharge efficiency. Conducting polymers such as polyaniline and polypyrrole have high conductivity and flexibility, improving the capabilities of supercapacitors. The use of conductive polymers reduces material and production costs, thus creating more opportunities for supercapacitor applications. This achievement works toward the wider application of supercapacitor technologies.
• Hybrid Materials: As developments in new materials for supercapacitors continue, hybrid materials, which include carbon materials in combination with doped polymers or metal oxides, are becoming more popular. These hybrid materials combine the features of the individual components, which may include improved electrochemical performance and better stability. Enhancements in supercapacitor performance by combining different materials have been noted, positively impacting the lifespan of supercapacitors. Such progress is broadening the field of usage and enhancing the properties of supercapacitors.
• Innovations in Manufacturing Techniques: The emergence of new technologies aimed at large-scale material synthesis and the use of automated processes is reducing the cost of supercapacitor materials. New trends in supercapacitor fabrication are enhancing manufacturing processes and ensuring better material consistency and quality, which in turn makes supercapacitors more efficient. The lowering of production costs is making supercapacitors more attractive compared to conventional storage methods, promoting their use in various industries.

There is a range of activities aimed at improving the existing features of the supercapacitor material market, such as the development of carbon materials, conducting polymers, composite materials, manufacturing methods, and environmentally friendly materials. These developments are enhancing supercapacitor capabilities and expanding their use in diverse industries with improved competitive advantages.

Strategic Growth Opportunities for Supercapacitor Material Market

The supercapacitor material market presents new opportunities that will propel growth. The development of new materials and technologies provides better possibilities for integrating supercapacitors, especially in automotive, renewable, and consumer industries. It is therefore vital to seek and implement these growth opportunities to advance the market and promote the acceptance of supercapacitor technologies.

• Automotive Applications: Electric vehicles (EVs) and hybrid vehicles are driving substantial growth in supercapacitor applications in the automotive industry. Among other uses, supercapacitors are embedded in automotive systems to store energy needed for quick acceleration and during regenerative braking. Their high power density and rapid charge-discharge capabilities improve vehicle performance and efficiency. There is increasing interest in developing more advanced supercapacitor materials and technologies for this application.
• Integration of Renewable Energy Systems: The essential function of supercapacitors in renewable energy systems, such as wind power and solar energy, is to absorb and smooth energy loads through a storage system. Because they provide high charging and discharging rates, these devices are ideal for power stabilization and improving the reliability of renewable energy resources. The trend of incorporating supercapacitors into energy storage systems is a crucial factor for growth, owing to the global shift towards clean energy alternatives.
• Consumer Electronics: In the consumer electronics market, supercapacitors are being adopted in devices such as smartphones, laptops, and wearables to improve power performance and enhance battery life. Their small profile and extremely high power density make them suitable for rapid energy delivery and efficient power management. This growth opportunity is increasing the supercapacitor materials market and initiating the development of new applications and devices.
• Industrial Automation: In most industrial automation systems, the use of supercapacitors is rising for applications that include backup power, uninterruptible power supplies (UPS), and energy recovery systems. Supercapacitors have proven reliable and responsive, making them suitable for critical industrial tasks. With the rise of industrial automation and smart manufacturing, there is an increasing need for new and advanced supercapacitor materials that can perform under challenging industrial conditions.

New market opportunities in the supercapacitor material industry are emerging due to developments in automotive applications, integration of renewable energy, consumer electronics, industrial automation, and smart grid areas. These areas are advancing the market, leading to increased use of supercapacitors in various fields. These applications will not only drive growth but also change the scope of energy storage systems as new technologies emerge.

Supercapacitor Material Market Driver and Challenges

The supercapacitor material market is a complex structure of several drivers and constraints that determine its growth and development. Market dynamics are significantly influenced by technological factors, industries, and government policies. Understanding these factors is paramount for fabricating efficient supercapacitor technologies and improving supercapacitor performance.

The factors driving the supercapacitor material market include:

• Technological Improvements: The development of new materials and production technologies is one of the major forces driving the supercapacitor material market. New developments in the composition of materials, ensuring the conductivity of electroactive substances like graphene electrodes and conductive polymers, are improving supercapacitor performance. Advances in manufacturing technologies are enhancing competition in production capacity and cost. These technological changes positively contribute to market development and broaden the range of supercapacitor applications.
• Growing Demand for High-Performance Energy Storage: The increasing prominence of high energy storage requirements in sectors such as automotive, renewable energy, and consumer electronics has been a significant factor in the growth of the supercapacitor material market. Supercapacitors possess features such as fast charging and discharging and high power density, which are essential for devices requiring reliable and efficient energy storage. The focus on performance and energy efficiency positively affects the market.
• Investment in Research and Development: Engagement in research and development (R&D) is crucial for improving supercapacitor materials and technologies. Increased efforts by the government and private businesses enhance the political will to explore better materials, technologies, and applications. R&D programs are helping to break through existing limitations, innovate, and boost the development of advanced supercapacitor solutions. This funding is essential for ensuring competitiveness and growth in the supercapacitor material market.

Challenges in the supercapacitor material market include:

• Cost of Materials: The supercapacitor material industry faces a major drawback due to the high price of advanced materials such as graphene and carbon nanotubes. The raw materials are expensive, and the manufacturing processes are complicated, raising production costs. It is important to ameliorate the costs of fabricating these supercapacitors to bring them on par with competitors in the energy storage domain.
• Inability to Scale Up: There is a gap between the market demand and the production of supercapacitor materials. The challenge is that creating advanced materials and components in larger quantities is often complicated and expensive. There is a need to develop manufacturing processes that are easy to scale and to enhance production to meet market requirements while lowering costs.
• Constraints on Technology: Certain technological constraints associated with the performance and endurance of supercapacitors may hinder market growth. Issues such as poor energy density and short cycle life relative to traditional batteries are barriers to widespread adoption. Addressing these technical constraints, along with the development of supercapacitors, is receiving significant focus in ongoing research and development activities.

The supercapacitor material market is subject to dynamic trends, including technological innovations, an increasing demand for high energy density energy storage, funding for research and development, social and environmental impacts, and economic developments. While some factors that drive market growth, such as innovative technologies and market demand, are favorable, issues related to material costs, production capacity, and processing limitations pose challenges. These drivers and challenges must be addressed to enhance supercapacitor technologies and develop a sustainable competitive advantage in the supercapacitor market.

List of Supercapacitor Material Companies

Companies in the market compete on the basis of product quality offered. Major players in this market focus on expanding their manufacturing facilities, R&D investments, infrastructural development, and leverage integration opportunities across the value chain. With these strategies supercapacitor material companies cater increasing demand, ensure competitive effectiveness, develop innovative products & technologies, reduce production costs, and expand their customer base. Some of the supercapacitor material companies profiled in this report include-

• Arkema
• BASF
• Bayer Materialscience
• Cabot
• Calgon Carbon
• Carbon Nt&F
• Carbotech
• Hitachi Chemicals
• NEI
• Targray Technology

Supercapacitor Material by Segment

The study includes a forecast for the global supercapacitor material market by material, end use, and region.

Supercapacitor Material Market by Material [Analysis by Value from 2019 to 2031]:

• Activated Carbon
• Carbon Derivatives
• Metal Oxides
• Conductive Polymers
• Others

Supercapacitor Material Market by End Use [Analysis by Value from 2019 to 2031]:

• Consumer Electronics
• Industrial
• Transportation
• Others

Supercapacitor Material Market by Region [Analysis by Value from 2019 to 2031]:

• North America
• Europe
• Asia Pacific
• The Rest of the World

Country Wise Outlook for the Supercapacitor Material Market

Recent changes and events in the supercapacitor material market reflect the level of technological development and the changes occurring in materials and market conditions relevant to major economies. Supercapacitors, highly valued for their high power density and fast charge and discharge cycles, are making significant strides in the development and diversification of materials. These advancements are driven by the increasing demand for more effective energy storage systems in the automotive, consumer, and renewable energy industries.

• United States: In the United States, advancements in the supercapacitor materials market over the years include notable improvements in carbon-based materials and nanotechnology. Innovations in the development of high-capacitance electrodes with advanced carbon composites and nanomaterials are prominent among U.S. corporations. Such advancements increase the energy density and power performance of supercapacitors. Moreover, there is a growing emphasis on research and development in material science to enhance the capabilities of supercapacitors for various sectors, including automotive and renewable energy systems.
• China: China has made significant progress in the supercapacitor material market by optimizing production processes and costs. The ultimate goal for most supercapacitor manufacturers in China is efficient performance while using cost-effective materials such as graphene and carbon nanotubes. The focus on production expansion and methods has resulted in affordable materials suitable for more applications, thus lowering the prices of supercapacitors. Furthermore, there is an appeal for government support and financing for research to encourage further innovations and capture market share.
• Germany: Germany is a pioneer in the development of supercapacitor materials, with increased efforts geared toward creating supercapacitors for various renewable energy storage systems. Advanced polymers and hybrid electrode materials are being developed by German researchers and companies with the aim of enhancing supercapacitor efficiency and lifespan. The emphasis on energy sustainability and efficiency in the country drives developments in supercapacitor technology, enhancing their use in smart grids and electric vehicles.
• India: In India, leading players in the supercapacitor material market have expanded their research and development activities in recent years and partnered with foreign institutions. Indian scientists are seeking alternatives in materials and processes to create supercapacitors that are superior to existing options, particularly those that are cost-effective and portable. The development of renewable energy sources and electric mobility is spurring the search for better energy storage technologies, leading to growth in supercapacitor technologies and sourcing local materials.
• Japan: Japan has experienced considerable growth in the supercapacitor material industry, focusing on the development of modern electrode and energy density materials. Japanese enterprises are using materials such as conductive polymers and advanced carbons to ensure that supercapacitors are efficient and durable in performance. Moreover, the focus on technological development and industrial applications in Japan is sufficiently boosting the supercapacitor market, encompassing more automotive and consumer electronics applications.

Features of the Global Supercapacitor Material Market

Market Size Estimates: Supercapacitor material market size estimation in terms of value ($B).

Trend and Forecast Analysis: Market trends (2019 to 2024) and forecast (2025 to 2031) by various segments and regions.

Segmentation Analysis: Supercapacitor material market size by material, end use, and region in terms of value ($B).

Regional Analysis: Supercapacitor material market breakdown by North America, Europe, Asia Pacific, and Rest of the World.

Growth Opportunities: Analysis of growth opportunities in different materials, end uses, and regions for the supercapacitor material market.

Strategic Analysis: This includes M&A, new product development, and competitive landscape of the supercapacitor material market.

Analysis of competitive intensity of the industry based on Porter's Five Forces model.

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This report answers following 11 key questions:

• Q.1. What are some of the most promising, high-growth opportunities for the supercapacitor material market by material (activated carbon, carbon derivatives, metal oxides, conductive polymers, and others), end use (consumer electronics, industrial, transportation, and others), and region (North America, Europe, Asia Pacific, and the Rest of the World)?
• Q.2. Which segments will grow at a faster pace and why?
• Q.3. Which region will grow at a faster pace and why?
• Q.4. What are the key factors affecting market dynamics? What are the key challenges and business risks in this market?
• Q.5. What are the business risks and competitive threats in this market?
• Q.6. What are the emerging trends in this market and the reasons behind them?
• Q.7. What are some of the changing demands of customers in the market?
• Q.8. What are the new developments in the market? Which companies are leading these developments?
• Q.9. Who are the major players in this market? What strategic initiatives are key players pursuing for business growth?
• Q.10. What are some of the competing products in this market and how big of a threat do they pose for loss of market share by material or product substitution?
• Q.11. What M&A activity has occurred in the last 5 years and what has its impact been on the industry?

Table of Contents

1. Executive Summary

2. Global Supercapacitor Material Market : Market Dynamics

• 2.1: Introduction, Background, and Classifications
• 2.2: Supply Chain
• 2.3: Industry Drivers and Challenges

3. Market Trends and Forecast Analysis from 2019 to 2031

• 3.1. Macroeconomic Trends (2019-2024) and Forecast (2025-2031)
• 3.2. Global Supercapacitor Material Market Trends (2019-2024) and Forecast (2025-2031)
• 3.3: Global Supercapacitor Material Market by Material
  • 3.3.1: Activated Carbon
  • 3.3.2: Carbon Derivatives
  • 3.3.3: Metal Oxides
  • 3.3.4: Conductive Polymers
  • 3.3.5: Others
• 3.4: Global Supercapacitor Material Market by End Use
  • 3.4.1: Consumer Electronics
  • 3.4.2: Industrial
  • 3.4.3: Transportation
  • 3.4.4: Others

4. Market Trends and Forecast Analysis by Region from 2019 to 2031

• 4.1: Global Supercapacitor Material Market by Region
• 4.2: North American Supercapacitor Material Market
  • 4.2.1: North American Market by Material: Activated Carbon, Carbon Derivatives, Metal Oxides, Conductive Polymers, and Others
  • 4.2.2: North American Market by End Use : Consumer Electronics, Industrial, Transportation, and Others
• 4.3: European Supercapacitor Material Market
  • 4.3.1: European Market by Material: Activated Carbon, Carbon Derivatives, Metal Oxides, Conductive Polymers, and Others
  • 4.3.2: European Market by End Use : Consumer Electronics, Industrial, Transportation, and Others
• 4.4: APAC Supercapacitor Material Market
  • 4.4.1: APAC Market by Material: Activated Carbon, Carbon Derivatives, Metal Oxides, Conductive Polymers, and Others
  • 4.4.2: APAC Market by End Use : Consumer Electronics, Industrial, Transportation, and Others
• 4.5: ROW Supercapacitor Material Market
  • 4.5.1: ROW Market by Material: Activated Carbon, Carbon Derivatives, Metal Oxides, Conductive Polymers, and Others
  • 4.5.2: ROW Market by End Use : Consumer Electronics, Industrial, Transportation, and Others

5. Competitor Analysis

• 5.1: Product Portfolio Analysis
• 5.2: Operational Integration
• 5.3: Porter's Five Forces Analysis

6. Growth Opportunities and Strategic Analysis

• 6.1: Growth Opportunity Analysis
  • 6.1.1: Growth Opportunities for the Global Supercapacitor Material Market by Material
  • 6.1.2: Growth Opportunities for the Global Supercapacitor Material Market by End Use
  • 6.1.3: Growth Opportunities for the Global Supercapacitor Material Market by Region
• 6.2: Emerging Trends in the Global Supercapacitor Material Market
• 6.3: Strategic Analysis
  • 6.3.1: New Product Development
  • 6.3.2: Capacity Expansion of the Global Supercapacitor Material Market
  • 6.3.3: Mergers, Acquisitions, and Joint Ventures in the Global Supercapacitor Material Market
  • 6.3.4: Certification and Licensing

7. Company Profiles of Leading Players

• 7.1: ARKEMA
• 7.2: BASF
• 7.3: Bayer Material Science
• 7.4: Cabot
• 7.5: Calgon Carbon
• 7.6: Carbon NT&F
• 7.7: Carbotech
• 7.8: Hitachi Chemicals
• 7.9: NEI
• 7.10: Targray Technology