Global Supercapacitor, Pseudocapacitor, CSH and BSH Hybrid Report 2024-2044: Essential Research for Investors, Value-added Materials Suppliers, Device Manufacturers, Product and System Integrators - ResearchAndMarkets.com

The "Global Supercapacitor, Pseudocapacitor, CSH and BSH Hybrid Market Forecasts 2024-2044: 26 Lines, 110 Manufacturers Appraised, Deep Technology Analysis, Roadmaps, Next Successes" report has been added to ResearchAndMarkets.com's offering.

Supercapacitors are made in 22 countries by over 100 manufacturers but the data-based analysis in this commercially-oriented report shows that a shakeout and regrowth are ahead. The market will reach $17 billion but not through today's dominant sector of on-road vehicles.

This report closely examines the capacitor-supercapacitor hybrids essential for new radar, the new hydrogen-supercapacitor and supercapacitor-only trains and many off-road vehicles newly adopting battery-supercapacitor hybrids. No other report takes 100 close-packed pages to analyse 110 manufacturers with comment, pie charts and strategies. Your potential acquisitions and partners are appraised.

With a flood of new research on supercapacitors in 2023 and 2024, it is time for a new report that is both up-to-date and forward-looking, with clarity and expert insight including scope for mergers, potential winners and losers and how research needs redirecting to optimise benefits 2024-2044. The needs of 6G Communications in 2030? It is all here with opportunities for value added materials companies highlighted.

There is a glossary at the start and terms are explained throughout. Who benefits from the strong move to non-flammable, less toxic, large versions? Why the rush into battery-supercapacitor hybrids, with orders to prove it? Only lithium-ion capacitors or do the two new options have potential? Why the strong research on metal oxide framework MOF and MXene electrodes in the last year but graphene triumphant so far?

The report is essential reading for those seeking success in providing the research, funding, added value materials, devices and applications.

This uniquely-useful, commercially-oriented report starts with 54 pages of Executive Summary and Conclusions sufficient for those in a hurry. See 16 new infograms, 6 SWOT appraisals, technology and market roadmap 2024-2044, 30 key conclusions. For example, Europe has fewer manufacturers than China or the USA and is a net importer. Time to wake up. See 26 supercapacitor forecast lines plus 20 forecast lines 2024-2044 for equipment fitting them.

The report is essential reading for investors, value-added materials suppliers, device manufacturers, product and system integrators with much to interest legislators, researchers, users and other interested parties as well.

Key Topics Covered:

1. Executive summary and conclusions

1.1 Purpose of this report

1.2 Methodology of this analysis

1.3 Definitions

1.4 Energy storage toolkit

1.5 12 Primary conclusions: markets

1.6 Infogram: the most impactful market needs

1.7 Infogram: relative commercial significance of supercapacitor variants 2024-2044

1.8 Market propositions and uses of the most-promising supercapacitor families 2024-2044

1.9 Analysis of supply and potential for large devices

1.10 17 primary conclusions: technologies and manufacturers

1.11 Infogram: the energy density-power density, life, size and weight compromise

1.12 Strategies to achieve less storage make EDLC and BSH more adoptable

1.13 How research needs redirecting: 5 columns, 7 lines

1.14 Market forecasting rationale, SWOT appraisals and roadmaps 2024-2044

1.15 Supercapacitors and variants forecasts by 26 lines 2024-2044

1.16 Background forecasts by 20 lines 2024-2044

2. Introduction

2.1 Electrification and the need for storage

2.2 Energy storage toolkit

2.3 Design and chemistry of capacitors including supercapacitors and variants

2.4 SWOT appraisal of supercapacitors and their variants

2.5 Charge-discharge characteristics of lithium-ion battery vs supercapacitor

2.6 Supercapacitors are more than energy storage

2.7 Lively competition between all capacitor and battery technologies

3. Future design principles, materials, research pipeline for supercapacitors including 2024

2.1 Overview

3.2 Factors influencing key supercapacitor parameters driving sales

3.3 Materials choices in general

3.4 Strategies for improving supercapacitors

3.5 Significance of graphene in supercapacitors and variants

3.6 Other 2D and allied materials for supercapacitors with examples of research

3.7 Research on supercapacitor electrode materials and structures in 2024

3.8 Research on supercapacitor electrode materials and structures in 2023

3.9 Important examples from earlier

3.10 Electrolytes for supercapacitors and variants

3.11 Membrane difficulty levels and materials used and proposed

3.12 Reducing self-discharge: great need, little research

4 Future design of pseudocapacitors, CSH and BSH hybrid supercapacitors

4.1 Overview

4.2 Exploiting pseudocapacitance

4.3 Design of battery-supercapacitor hybrids

4.4 Capacitor supercapacitor hybrid CSH design

5. Flexible, stretchable, fabric, micro and structural supercapacitors including paper, wire and cable

5.1 Overview including printed supercapacitors

5.2 Editable supercapacitors

5.3 Paper supercapacitors and variants

5.4 Textile and fabric supercapacitors and variants including biomimetics

5.5 Both flexible and transparent

5.6 Fabric, tubular flexible and wearable

5.7 Wire and cable supercapacitors

5.8 Micro-supercapacitors

6. Structural supercapacitors

6.1 Needs, formats and cost breakdown

6.2 Structural supercapacitors for aircraft

6.3 Structural supercapacitors for boats and other applications: University of California San Diego

6.4 Structural supercapacitors for road vehicles

6.5 Structural supercapacitors for electronics and devices: Vanderbilt University USA

7. Emerging markets: basic trends and best prospects compared between energy, vehicles, aerospace, military, electronics, other

7.1 Implications for the market 2024-2044

7.2 Overview

7.3 Relative commercial significance of supercapacitor variants 2024-2044

7.4 Market propositions of the most-promising supercapacitor families 2024-2044

7.5 Mismatch between market potential and sizes made

7.6 Analysis of supply and potential for large devices

8. Energy sector emerging markets for supercapacitors and their variants

8.1 Overview: poor, modest and strong prospects 2024-2044

8.2 Thermonuclear power

8.3 Less-intermittent grid electricity generation: wave, tidal stream, elevated wind

8.4 Beyond-grid supercapacitors: large emerging opportunity

8.5 Hydro power

9. Emerging land vehicle and marine applications: automotive, bus, truck train, off-road construction, agriculture, mining, forestry, material handling, boats, ships

9.1 Overview of supercapacitor use in land transport

9.2 On-road applications face decline but off-road vibrant

9.3 How the value market for supercapacitors and their variants in land vehicles will move from largely on-road to largely off-road

9.4 Emerging vehicle and allied designs with large supercapacitors

9.5 Tram and trolleybus regeneration and coping with gaps in catenary

9.6 Material handling (intralogistics) supercapacitors

9.7 Mining and quarrying uses for large supercapacitors

9.8 Research relevant to large supercapacitors in vehicles

9.9 Large supercapacitors for trains and their trackside regeneration

9.10 Marine use of large supercapacitors and the research pipeline

10. Emerging applications in 6G Communications, electronics and small electrics

10.1 Overview

10.2 Substantial growing applications for small supercapacitors

10.3 Supercapacitors in wearables, smart watches, smartphones, laptops and similar devices

10.4 6G Communications: new supercapacitor market from 2030

10.5 Asset tracking growth market

10.6 Battery support and back-up power supercapacitors

10.7 Hand-held terminals supercapacitors

10.8 Internet of Things nodes, wireless sensors and their energy harvesting modes with supercapacitors

10.9 Supercapacitor peak power for data transmission, locks, solenoid activation, e-ink update, LED flash

10.10 Smart meters using supercapacitors

10.11 Spot welding supercapacitors

11 Emerging military and aerospace applications

11.1 Overview

11.2 Military applications: electrodynamic and electromagnetic weapons now a strong focus

11.3 Military applications: unmanned aircraft, communication equipment, radar, plane, ship, tank, satellite, guided missile, munition ignition, electromagnetic armour

11.4 Aerospace: satellites, More Electric Aircraft MEA and other growth opportunities

12. 110 supercapacitor, pseudocapacitor and LIC companies assessed in 10 columns across 100 pages

12.1. Overview and analysis of metrics from the company appraisals

12.2 Supercapacitor, pseudocapacitor and LIC manufacturers assessed in 10 columns across 96 pages

Companies Featured

• Ada Technologies
• AEP
• ALE
• Allegro Energy
• Allotrope Energy
• AOWEI
• Apowercap
• Astrolwx
• Aura Aerospace
• AVX
• Axion Power
• Beijing HCC
• Blue Solutions
• C2C Newcap
• Cap-XX
• Capacitech
• Chaioyang Liyuang New Energy
• Cooper Bussmann
• Cornell Dubilier
• CRE Technologies
• CRRC
• Dongguan AJC Industrial
• Dongguan Gonghe Electronics
• Dongguan Xuanx
• Dongxu Optoelectronics
• Earthdas
• East Penn Manufacturing
• ELBIT Systems
• Elecond
• Elna
• ELTON
• Energoplus Tech
• Evans Capacitor (QuanticEvans)
• Fastcap
• Gnanomat
• Godi
• Harbin Jurong New Power
• Heter Electronics
• Hongda Capacitors
• Illinois Capacitor
• Inmatech
• Ioxus
• JEC Capacitor
• Jianxda Technical Electronics
• Jinzhou Kaimei Power
• JM Energy
• Kemet
• Kilowatt Laboratories
• KiteNRG
• Korchip
• Kurt
• Kyocera
• Lamborghini
• Liaoning Brother Electronics
• Licap Technologies
• Ligna Energy
• Littlefuse
• LS Ultracapacitor
• Maxwell Technologies (Ucap)
• Nantong Jinghai
• NAWA Technologies
• Neousys Technology
• Nichicon
• Nippon Chemicon
• Omni Power
• Optixal
• Ostrichoo
• Panasonic
• Paper Battery Company
• Premio
• RD Graphene
• ROTEC
• Samwha
• Seattle Electronics
• Sech
• Seiko Instruments
• Shandong Goldencell NT
• Shanghai Greentech
• Shanghai Pluspark Electronics
• Shenzhen Chenxinhong Electronics
• Shenzhen Delong Energy
• Shenzhen Forecon Super Capacitor
• Shenzhen Jiashengtai Electronics
• Shenzhen Jin Hong Yang Electronics
• Shenzhen Topmay
• Shenzhen Xuyangbo Electric
• Skeleton Technologies
• SPEL Surya Power Farad
• Sumitomo Electric Meidensha
• SupraG
• Supreme Power Solutions
• Sure
• Surge Supercapacitors
• Sustainable Energy Technologies
• Swistor
• Taiyo Yuden
• Tavrima Canada
• TDK
• Tecate Group
• TecoMaritime Group
• Titan Power Solutions
• Toomen New Energy
• Total Group
• Ucap Power
• Vina Technologies
• Vishay
• WIMA
• Windfall Power
• Wuhan Shenglida Technology
• Wurth
• Yes Clean Energy
• Yunasko
• ZapGo
• Zero Emissions Developments
• Zoxcell (Jolta Technology)
• ZTT

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