CHAPTER 1 INTRODUCTION
1.1. Market Definition
1.2. Executive Summary
1.3. The Scope of the Study
CHAPTER 2 RESEARCH METHODOLOGY
2.1. Secondary Research
2.2. Primary Research
2.3. Analytic Tools and Model
2.4. Economic Indicator
2.4.1. Base Year, Base Currency, Forecasting Period
2.5. Expert Validation
2.6. Study Timeline
CHAPTER 3 MARKET ANALYSIS
3.1. Industry Value Chain Analysis
3.2. Porter's Five Force Analysis
3.2.1. Bargaining Power of Buyers
3.2.2. Bargaining Power of Suppliers
3.2.3. Threats of Substitutes
3.2.4. Threats of New Entrants
3.2.5. Degree of Competition
3.3. PESTLE Analysis
3.3.1. Political
3.3.2. Economical
3.3.3. Social
3.3.4. Technological
3.3.5. Legal
3.3.6. Environmental
3.4. SWOT Analysis
3.4.1. Strengths
3.4.2. Weakness
3.4.3. Opportunities
3.4.4. Threats
3.5. Y-O-Y Analysis
CHAPTER 4 MARKET DYNAMICS
4.1. Market Drivers
4.1.1. High use of supercapacitors in energy harvesting applications
4.1.2. Increasing adoption of hybrid electric vehicles
4.1.3. Growing applications of regenerative braking systems
4.1.4. Rapid R&D in supercapacitor technologies
4.2. Market Restraints & Challenges
4.2.1. High price of raw materials
4.2.2. Availability of low priced substitutes
4.3. Market Opportunities
4.3.1. Growing usage of activated carbon to increase adoption of super capacitors
4.3.2. Rising need of super capacitors for automotive industry in developing countries
CHAPTER 5 GLOBAL SUPERCAPACITOR MARKET – BY TYPE
5.1. Pseudo capacitors
5.2. Double-layer capacitor
5.3. Hybrid capacitors
5.3.1. Composite hybrids
5.3.2. Asymmetric hybrids
5.3.3. Battery-type hybrids
CHAPTER 6 GLOBAL SUPERCAPACITOR MARKET – BY MATERIAL
6.1. Activated carbon
6.2. Carbide derived carbon
6.3. Carbon aerogel
6.4. Graphite
6.5. Metal oxides
6.5.1. Ruthenium oxide
6.5.2. Iridium oxide
6.5.3. Iron oxide
6.5.4. Manganese oxide
6.6. Conductive polymers
6.7.1. Polyaniline
6.7.2. Poly pyrrole
6.7.3. Poly acne
6.7.4. Poly acetylene
6.8. Others
CHAPTER 7 GLOBAL SUPERCAPACITOR MARKET – BY VERTICAL
7.1. Introduction
7.2. Aerospace and defense
7.3. Medical
7.4. Energy
7.5. Automotive
7.6. Industrial
7.7. Consumer electronics
CHAPTER 8 GLOBAL SUPERCAPACITOR MARKET - BY APPLICATION
8.1. Introduction
8.2. Audio systems
8.3. Laptops
8.4. Cameras
8.5. Video cameras
8.6. Flash cameras
8.7. Solar watches
8.8. Smoke detectors
8.9. Power backup systems
8.10. Memory devices
8.11. Other applications
CHAPTER 9 GLOBAL SUPERCAPACITOR MARKET - BY GEOGRAPHY
9.1. Introduction
9.2. North America
9.2.1. U.S.
9.2.2. Canada
9.2.3. Mexico
9.2.4. Costa Rica
9.3. South America
9.3.1. Brazil
9.3.2. Argentina
9.3.3. Chile
9.3.4. Columbia
9.3.5. Others
9.4. Europe
9.4.1. U.K.
9.4.2. Germany
9.4.3. France
9.4.4. Italy
9.4.5. Spain
9.4.6. Russia
9.4.7. Netherlands
9.4.8. Switzerland
9.4.9. Poland
9.4.10. Others
9.5. Asia Pacific
9.5.1. China
9.5.2. Japan
9.5.3. India
9.5.4. South Korea
9.5.5. Australia & New Zealand
9.5.6. Malaysia
9.5.7. Singapore
9.5.8. Others
9.6. Middle East & Africa
9.6.1. UAE
9.6.2. Saudi Arabia
9.6.3. Iran
9.6.4. Iraq
9.6.5. Qatar
9.6.6. South Africa
9.6.7. Algeria
9.6.8. Morocco
9.6.9. Nigeria
9.6.10. Egypt
9.6.11. Others
CHAPTER 10 GLOBAL SUPERCAPACITOR MARKET - COMPANY PROFILES
10.1. SPEL Technologies Private Limited
10.2. Evans Capacitor Company
10.3. AVX Corporation
10.4. Mouser Electronics, Inc.
10.5. Nippon Chemi-Con Corporation
10.6. Graphene Laboratories, Inc.
10.7. Axion Power International, Inc.
10.8. Skeleton Technologies
10.9. Maxwell Technologies, Inc.
10.10. Murata Manufacturing Co., Ltd.
10.11. Denso Corporation
10.12. Panasonic Corporation.
10.13. Cap-XX Limited.
10.14. NEC TOKIN Corporation
CHAPTER 11 GLOBAL SUPERCAPACITOR MARKET - COMPETITIVE LANDSCAPE
11.1. Market Share Analysis
11.2. Strategies adopted by top companies
11.3. Mergers, Acquisitions, Collaborations & Agreements
CHAPTER 12 MARKET INSIGHTS
12.1. Industry Experts Insights
12.2. Analysts Opinions
12.3. Investment Opportunities
CHAPTER 13 APPENDIX
13.1. List of Tables
13.2. List of Figures
