Most up-to-date research on "Electrochemical Double Layer Capacitors: Supercapacitors 2014-2024" to its huge collection of research reports.
This broad-ranging report on supercapacitors and supercabatteries has up to date ten year forecasts and analysis of market, applications, technology, patent and profit trends and the manufacturers and researchers involved.
55% of the manufacturers and intending manufacturers of supercapacitors/supercabatteries (EDLC, AEDLC) are in East Asia, 28% are in North America but Europe is fast asleep at only 7%. Yet, being used for an increasing number of purposes in electric vehicles, mobile phones, energy harvesting, renewable energy and other products of the future, this market is roaring up to over $11 billion in ten years with considerable upside potential.
This report concerns Electrochemical Double Layer Capacitors (EDLCs). For brevity, we mainly use the second most popular word for them - supercapacitors. The third most popular term for them - ultracapacitors - is often used in heavy electrical applications. Included in the discussion and forecasts are so-called Asymmetric Electrochemical Double Layer Capacitors (AEDLCs) better known as supercabatteries.
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The report also features patent trends of supercapacitor technologies. This data is taken from a report covering more details about the patent landscape for batteries; for full details of that report please go to www.IDTechEx.com/patent .
Supercapacitors are a curiously neglected aspect of electronics and electrical engineering with a multi-billion dollar market rapidly emerging. For example, for land, water and airborne electric vehicles, there are about 200 serious traction motor manufacturers and 110 serious traction battery suppliers compared to just a few supercapacitor manufacturers. In all, there are no more than 66 significant supercapacitor manufacturers with most concentrating on the easier small ones for consumer electronics such as power backup. However, in a repetition of the situation with rechargeable batteries, the largest part of the market has just become the heavy end, notably for electric and conventional vehicles.
Supercapacitors and supercabatteries mainly have properties intermediate between those of batteries and traditional capacitors but they are being improved more rapidly than either. That includes improvement in cost and results in them not just being used to enhance batteries but even replacing batteries and capacitors in an increasing number of applications from renewable energy down to microscopic electronics. For example, your mobile phone may have better sound and flash that works at ten times the distance because a supercapacitor has taken over these functions from conventional capacitors.
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Table of Contents
1. EXECUTIVE SUMMARY AND CONCLUSIONS
1.1. A huge opportunity but a relatively neglected sector
1.1.1. Relative pace of improvement
1.2. Objectives of further development
1.2.1. Most promising routes
1.2.2. Geographical and product emphasis.
1.3. Forecasting assumptions
1.4. Reality checks
1.5. Upside potential
1.5.1. Applications
1.5.2. Replacing some batteries
1.6. AEDLC/supercabatteries
1.6.1. Supercapacitor technology roadmap including lithium-ion capacitors (AEDLC) 2013-2023
1.7. The technology and its future
1.7.1. Timeline for supercapacitor market adoption and technical achievements
1.7.2. Comparison with capacitors and batteries
1.7.3. Replacing lead-acid and NiCd batteries
1.7.4. Most promising improvements ahead
1.7.5. Aqueous and non-aqueous electrolytes
1.7.6. Prospect of radically different battery and capacitor shapes
1.7.7. Fixing the limitations
1.8. Supercapacitor sales have a new driver: safety
1.9. Change of leadership of the global value market?
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2. INTRODUCTION
2.1. Nomenclature
2.2. Batteries and capacitors converge
2.2.1. What is a battery?
2.2.2. Battery history
2.2.3. Analogy to a container of liquid
2.2.4. Construction of a battery
2.2.5. Many shapes of battery
2.2.6. Single use vs rechargeable batteries
2.2.7. What is a capacitor?
2.2.8. Capacitor history
2.2.9. Analogy to a spring
2.2.10. Capacitor construction
2.2.11. Supercapacitor construction
2.2.12. Limitations of energy storage devices
2.2.13. Battery safety
2.2.14. A glimpse at the new magic
2.3. Improvement in performance taking place with components
2.4. History
2.5. What does a supercapacitor for small devices look like?
2.6. Supercapacitors and supercabattery basics
2.6.1. Basic geometry
2.6.2. Charging
2.6.3. Discharging and cycling
2.6.4. Energy density
2.6.5. Battery-like variants: Pseudocapacitors, supercabatteries
2.6.6. New shapes
2.6.7. Achieving higher voltages
2.6.8. Laminar biodegradable option
2.6.9. Regenerative braking
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