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デュアルイオン電池市場:タイプ別(有機金属、金属-金属、ナトリウムイオン、亜鉛イオン、その他)、用途別(電気自動車、ポータブル電子機器、再生可能エネルギー貯蔵、医療機器、その他):2021-2031年の世界機会分析と産業予測


Dual-ion batteries Market By Type (Metal-Organic, Metal-Metal, Sodium-Ion, Zinc-Ion, Others), By Application (Electric Vehicles, Portable Electronics, Renewable Energy Storage, Medical Devices, Others): Global Opportunity Analysis and Industry Forecast, 2021-2031

世界のデュアルイオン電池市場規模は2021年に3億ドルと評価され、デュアルイオン電池産業は2031年には16億ドルに達し、2022年から2031年までの年平均成長率は16.4%で成長すると予測されている。 デュアルイオン... もっと見る

 

 

出版社 出版年月 電子版価格 ページ数 言語
Allied Market Research
アライドマーケットリサーチ
2023年3月31日 US$5,730
シングルユーザライセンス
ライセンス・価格情報
注文方法はこちら
256 英語

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サマリー

世界のデュアルイオン電池市場規模は2021年に3億ドルと評価され、デュアルイオン電池産業は2031年には16億ドルに達し、2022年から2031年までの年平均成長率は16.4%で成長すると予測されている。
デュアルイオン電池は充電式電池の一種で、ナトリウムとマグネシウムの2種類のイオンを使ってエネルギーを貯蔵・放出する。リチウムイオンのみに依存する従来のリチウムイオン電池とは異なり、デュアルイオン電池は正負両方の電荷を帯びたイオンを使用するため、エネルギー密度が高く、充電時間が短縮される。このタイプの電池は通常、電解質溶液で隔てられた2つの電極(イオンの種類ごとに1つずつ)で構成されている。電池が充電されると、イオンは一方の電極から他方の電極に移動し、エネルギーを蓄える。電池が放電されると、イオンは元の電極に戻り、エネルギーを放出する。デュアルイオン電池はまだ開発の初期段階にあるが、電気自動車、携帯電子機器、グリッド規模のエネルギー貯蔵など、さまざまな用途での使用が期待されている。

デュアルイオン電池は従来の電池に比べてエネルギー密度が高く、これがデュアルイオン電池市場の需要を押し上げる大きな要因となっている。エネルギー密度が高いということは、単位体積または単位質量当たりにより多くのエネルギーを貯蔵できるということであり、電池寿命の延長、電池の小型化・軽量化、低コスト化につながる可能性がある。環境維持のためにデュアルイオン電池を使用する主な利点には、水性/非水性電解液の使用による高い安全性が含まれる。デュアルイオン電池では、低コストで環境に優しい原料電極材料を使用するため、環境保護の面でリチウムイオン電池に比べて大きな利点がある。

デュアルイオン電池は、魅力的な電気化学エネルギー貯蔵デバイスとして登場した。天然黒鉛のような非常に豊富な炭素系材料で作られた正極は、コストが低く、持続可能性が高い。デュアルイオン電池のようなエネルギー貯蔵技術の開発は、持続可能な未来のために不可欠である。リチウムイオン電池とニッケル水素電池のライフサイクル環境負荷比較分析では、リチウムイオン電池の方が環境負荷が高いことが示された。e-モビリティの環境負荷全体に占める電池の割合は15%で、これは主にリチウムイオン電池によるものである。2019年の調査によると、リチウムイオン電池の生産による気候への影響全体の40%は、採掘プロセスそのものによるものである。今後、上記のような用途が存在することで、デュアルイオン電池市場の需要が高まるだろう。

このような成長機会にもかかわらず、デュアルイオン電池市場は、限られた入手可能性や原材料価格の変動などのいくつかの抑制にも直面している。しかし、電子システムを必要とする産業や用途が増え、持続可能なエネルギー・ソリューションの需要が増え続けていることから、市場は成長を続けると予想される。
デュアルイオン電池の世界市場分析は、タイプ、用途、地域に区分される。タイプ別では、有機金属、金属-金属、ナトリウムイオン、亜鉛イオン、その他に分けられる。用途別では、電気自動車、携帯電子機器、再生可能エネルギー貯蔵、医療機器、その他に分けられる。地域別では、北米、欧州、アジア太平洋、LAMEAに分けられる。

北米はデュアルイオン電池の世界最大市場の一つであり、世界市場で大きなシェアを占めている。同地域には多くの大手デュアルイオン電池メーカーやサプライヤーが存在し、様々な用途における電子システムの需要増加により、同市場は今後も成長が見込まれる。北米のデュアルイオン電池市場は、通信、自動車、航空宇宙、防衛など様々な産業からの需要が牽引している。北米の企業や研究機関は近年、デュアルイオン電池技術の開発に積極的に取り組んでいる。例えば、メリーランド大学の研究者は、リチウムイオンの代わりにマグネシウムイオンとナトリウムイオンを使用する高性能デュアルイオン電池を開発し、電池製造のコストと環境への影響を削減できる可能性がある。一方、Ionic Materials社、Pellion Technologies社、Wildcat Discovery Technologies社などの企業も、デュアルイオン電池技術の開発と商業化に取り組んでいる。

Covid-19が世界のデュアルイオン電池市場に与えた影響
パンデミックはサプライチェーンと製造工程に混乱を引き起こし、デュアルイオン電池の生産に影響を与えた。また、ウイルスの蔓延を抑えるために各国政府が課した制限や規制も、この分野への投資や研究開発活動の減少につながった。
しかし、パンデミックの進行に伴い、持続可能で環境に優しい交通手段を求める人々の間で、電気自動車の需要が増加した。EV需要の増加はデュアルイオン電池市場にプラスの影響を与え、生産と販売の増加につながった。

パンデミックはまた、再生可能エネルギー貯蔵のための電池技術の重要性への注目の高まりにつながり、デュアルイオン電池の効率と持続可能性を改善するための投資と研究を促進した。
パンデミック後、世界のデュアルイオン電池市場は、電気自動車の需要増と効率的なエネルギー貯蔵ソリューションの必要性から、今後数年間で大幅な成長が予測されている。パンデミックは短期的には混乱を引き起こしたかもしれないが、世界的な課題に対処するためのレジリエントで持続可能な技術開発の重要性を浮き彫りにした。

競争状況
デュアルイオン電池業界の主要企業は、Faradion Limited、Tiamat Energy、Prieto Battery、Excellatron、Ionic Materials、Solid Energy Systems、Qing Tao Energy Development Co.Ltd.、Sion Power、Custom cells Itzehoe GmbH、Jenaxである。これらのプレーヤーは、市場でデュアルイオン電池を商業化するために研究開発に投資戦略を採用している。

ステークホルダーにとっての主なメリット
本レポートは、2021年から2031年までのデュアルイオン電池市場分析の市場セグメント、現在の動向、予測、ダイナミクスを定量的に分析し、デュアルイオン電池の市場機会を特定します。
主要な促進要因、阻害要因、機会に関する情報とともに市場調査を提供します。
ポーターのファイブフォース分析により、バイヤーとサプライヤーの潜在力を明らかにし、ステークホルダーが利益重視のビジネス決定を下し、サプライヤーとバイヤーのネットワークを強化できるようにします。
デュアルイオン電池市場の細分化に関する詳細な分析により、市場機会を見極めることができます。
各地域の主要国を世界市場への収益貢献度に応じてマッピングしています。
市場プレイヤーのポジショニングはベンチマーキングを容易にし、市場プレイヤーの現在のポジションを明確に理解することができます。
地域別および世界別のデュアルイオン電池市場動向、主要企業、市場セグメント、応用分野、市場成長戦略の分析を含みます。

主要市場セグメント
タイプ別
メタル-有機
金属-金属
ナトリウムイオン
亜鉛イオン
その他
用途別
電気自動車
ポータブルエレクトロニクス
再生可能エネルギー貯蔵
医療機器
その他
地域別
北米
米国
カナダ
メキシコ
ヨーロッパ
ドイツ
フランス
イタリア
イギリス
スペイン
その他のヨーロッパ
アジア太平洋
中国
日本
インド
韓国
オーストラリア
その他のアジア太平洋地域
ラメア
ブラジル
南アフリカ
サウジアラビア
その他の地域
主要市場プレイヤー
ティアマト・エナジー
ジェナックス
シオンパワー
イオンマテリアル
カスタムセル・イッツェホーGmbH
青島能源開発有限公司 ○ プリエト電池
プリエト・バッテリー
エクセラトロン
ソリッド・エナジー・システムズ
ファラディオン

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目次

CHAPTER 1: INTRODUCTION
1.1. Report description
1.2. Key market segments
1.3. Key benefits to the stakeholders
1.4. Research Methodology
1.4.1. Primary research
1.4.2. Secondary research
1.4.3. Analyst tools and models
CHAPTER 2: EXECUTIVE SUMMARY
2.1. CXO Perspective
CHAPTER 3: MARKET OVERVIEW
3.1. Market definition and scope
3.2. Key findings
3.2.1. Top impacting factors
3.2.2. Top investment pockets
3.3. Porter’s five forces analysis
3.3.1. Bargaining power of suppliers
3.3.2. Bargaining power of buyers
3.3.3. Threat of substitutes
3.3.4. Threat of new entrants
3.3.5. Intensity of rivalry
3.4. Market dynamics
3.4.1. Drivers
3.4.1.1. Dual-ion batteries have a higher energy density compared to conventional lithium-ion batteries
3.4.1.2. Growth in awareness related to environmental sustainability
3.4.1.3. Growth in demand for energy storage
3.4.1.4. Government initiatives and subsidies promoting the adoption of electric vehicles and renewable energy sources

3.4.2. Restraints
3.4.2.1. Limited availability of raw materials required for dual-ion batteries
3.4.2.2. High manufacturing costs compared to conventional battery technologies

3.4.3. Opportunities
3.4.3.1. Potential applications in emerging markets

3.5. COVID-19 Impact Analysis on the market
3.6. Key Regulation Analysis
3.7. Value Chain Analysis
CHAPTER 4: DUAL-ION BATTERIES MARKET, BY TYPE
4.1. Overview
4.1.1. Market size and forecast
4.2. Metal-Organic
4.2.1. Key market trends, growth factors and opportunities
4.2.2. Market size and forecast, by region
4.2.3. Market share analysis by country
4.3. Metal-Metal
4.3.1. Key market trends, growth factors and opportunities
4.3.2. Market size and forecast, by region
4.3.3. Market share analysis by country
4.4. Sodium-Ion
4.4.1. Key market trends, growth factors and opportunities
4.4.2. Market size and forecast, by region
4.4.3. Market share analysis by country
4.5. Zinc-Ion
4.5.1. Key market trends, growth factors and opportunities
4.5.2. Market size and forecast, by region
4.5.3. Market share analysis by country
4.6. Others
4.6.1. Key market trends, growth factors and opportunities
4.6.2. Market size and forecast, by region
4.6.3. Market share analysis by country
CHAPTER 5: DUAL-ION BATTERIES MARKET, BY APPLICATION
5.1. Overview
5.1.1. Market size and forecast
5.2. Electric Vehicles
5.2.1. Key market trends, growth factors and opportunities
5.2.2. Market size and forecast, by region
5.2.3. Market share analysis by country
5.3. Portable Electronics
5.3.1. Key market trends, growth factors and opportunities
5.3.2. Market size and forecast, by region
5.3.3. Market share analysis by country
5.4. Renewable Energy Storage
5.4.1. Key market trends, growth factors and opportunities
5.4.2. Market size and forecast, by region
5.4.3. Market share analysis by country
5.5. Medical Devices
5.5.1. Key market trends, growth factors and opportunities
5.5.2. Market size and forecast, by region
5.5.3. Market share analysis by country
5.6. Others
5.6.1. Key market trends, growth factors and opportunities
5.6.2. Market size and forecast, by region
5.6.3. Market share analysis by country
CHAPTER 6: DUAL-ION BATTERIES MARKET, BY REGION
6.1. Overview
6.1.1. Market size and forecast By Region
6.2. North America
6.2.1. Key trends and opportunities
6.2.2. Market size and forecast, by Type
6.2.3. Market size and forecast, by Application
6.2.4. Market size and forecast, by country
6.2.4.1. U.S.
6.2.4.1.1. Key market trends, growth factors and opportunities
6.2.4.1.2. Market size and forecast, by Type
6.2.4.1.3. Market size and forecast, by Application
6.2.4.2. Canada
6.2.4.2.1. Key market trends, growth factors and opportunities
6.2.4.2.2. Market size and forecast, by Type
6.2.4.2.3. Market size and forecast, by Application
6.2.4.3. Mexico
6.2.4.3.1. Key market trends, growth factors and opportunities
6.2.4.3.2. Market size and forecast, by Type
6.2.4.3.3. Market size and forecast, by Application
6.3. Europe
6.3.1. Key trends and opportunities
6.3.2. Market size and forecast, by Type
6.3.3. Market size and forecast, by Application
6.3.4. Market size and forecast, by country
6.3.4.1. Germany
6.3.4.1.1. Key market trends, growth factors and opportunities
6.3.4.1.2. Market size and forecast, by Type
6.3.4.1.3. Market size and forecast, by Application
6.3.4.2. France
6.3.4.2.1. Key market trends, growth factors and opportunities
6.3.4.2.2. Market size and forecast, by Type
6.3.4.2.3. Market size and forecast, by Application
6.3.4.3. Italy
6.3.4.3.1. Key market trends, growth factors and opportunities
6.3.4.3.2. Market size and forecast, by Type
6.3.4.3.3. Market size and forecast, by Application
6.3.4.4. UK
6.3.4.4.1. Key market trends, growth factors and opportunities
6.3.4.4.2. Market size and forecast, by Type
6.3.4.4.3. Market size and forecast, by Application
6.3.4.5. Spain
6.3.4.5.1. Key market trends, growth factors and opportunities
6.3.4.5.2. Market size and forecast, by Type
6.3.4.5.3. Market size and forecast, by Application
6.3.4.6. Rest of Europe
6.3.4.6.1. Key market trends, growth factors and opportunities
6.3.4.6.2. Market size and forecast, by Type
6.3.4.6.3. Market size and forecast, by Application
6.4. Asia-Pacific
6.4.1. Key trends and opportunities
6.4.2. Market size and forecast, by Type
6.4.3. Market size and forecast, by Application
6.4.4. Market size and forecast, by country
6.4.4.1. China
6.4.4.1.1. Key market trends, growth factors and opportunities
6.4.4.1.2. Market size and forecast, by Type
6.4.4.1.3. Market size and forecast, by Application
6.4.4.2. Japan
6.4.4.2.1. Key market trends, growth factors and opportunities
6.4.4.2.2. Market size and forecast, by Type
6.4.4.2.3. Market size and forecast, by Application
6.4.4.3. India
6.4.4.3.1. Key market trends, growth factors and opportunities
6.4.4.3.2. Market size and forecast, by Type
6.4.4.3.3. Market size and forecast, by Application
6.4.4.4. South Korea
6.4.4.4.1. Key market trends, growth factors and opportunities
6.4.4.4.2. Market size and forecast, by Type
6.4.4.4.3. Market size and forecast, by Application
6.4.4.5. Australia
6.4.4.5.1. Key market trends, growth factors and opportunities
6.4.4.5.2. Market size and forecast, by Type
6.4.4.5.3. Market size and forecast, by Application
6.4.4.6. Rest of Asia-Pacific
6.4.4.6.1. Key market trends, growth factors and opportunities
6.4.4.6.2. Market size and forecast, by Type
6.4.4.6.3. Market size and forecast, by Application
6.5. LAMEA
6.5.1. Key trends and opportunities
6.5.2. Market size and forecast, by Type
6.5.3. Market size and forecast, by Application
6.5.4. Market size and forecast, by country
6.5.4.1. Brazil
6.5.4.1.1. Key market trends, growth factors and opportunities
6.5.4.1.2. Market size and forecast, by Type
6.5.4.1.3. Market size and forecast, by Application
6.5.4.2. South Africa
6.5.4.2.1. Key market trends, growth factors and opportunities
6.5.4.2.2. Market size and forecast, by Type
6.5.4.2.3. Market size and forecast, by Application
6.5.4.3. Saudi Arabia
6.5.4.3.1. Key market trends, growth factors and opportunities
6.5.4.3.2. Market size and forecast, by Type
6.5.4.3.3. Market size and forecast, by Application
6.5.4.4. Rest of LAMEA
6.5.4.4.1. Key market trends, growth factors and opportunities
6.5.4.4.2. Market size and forecast, by Type
6.5.4.4.3. Market size and forecast, by Application
CHAPTER 7: COMPETITIVE LANDSCAPE
7.1. Introduction
7.2. Top winning strategies
7.3. Product Mapping of Top 10 Player
7.4. Competitive Dashboard
7.5. Competitive Heatmap
7.6. Top player positioning, 2021
CHAPTER 8: COMPANY PROFILES
8.1. Faradion Limited
8.1.1. Company overview
8.1.2. Key Executives
8.1.3. Company snapshot
8.1.4. Operating business segments
8.1.5. Product portfolio
8.2. Tiamat Energy
8.2.1. Company overview
8.2.2. Key Executives
8.2.3. Company snapshot
8.2.4. Operating business segments
8.2.5. Product portfolio
8.3. Prieto Battery
8.3.1. Company overview
8.3.2. Key Executives
8.3.3. Company snapshot
8.3.4. Operating business segments
8.3.5. Product portfolio
8.4. Excellatron
8.4.1. Company overview
8.4.2. Key Executives
8.4.3. Company snapshot
8.4.4. Operating business segments
8.4.5. Product portfolio
8.5. Ionic Materials
8.5.1. Company overview
8.5.2. Key Executives
8.5.3. Company snapshot
8.5.4. Operating business segments
8.5.5. Product portfolio
8.6. Solid Energy Systems
8.6.1. Company overview
8.6.2. Key Executives
8.6.3. Company snapshot
8.6.4. Operating business segments
8.6.5. Product portfolio
8.7. Qing Tao Energy Development Co., Ltd.
8.7.1. Company overview
8.7.2. Key Executives
8.7.3. Company snapshot
8.7.4. Operating business segments
8.7.5. Product portfolio
8.8. Sion Power
8.8.1. Company overview
8.8.2. Key Executives
8.8.3. Company snapshot
8.8.4. Operating business segments
8.8.5. Product portfolio
8.9. Custom Cells Itzehoe GmbH
8.9.1. Company overview
8.9.2. Key Executives
8.9.3. Company snapshot
8.9.4. Operating business segments
8.9.5. Product portfolio
8.10. Jenax
8.10.1. Company overview
8.10.2. Key Executives
8.10.3. Company snapshot
8.10.4. Operating business segments
8.10.5. Product portfolio

 

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Summary

The global dual-ion batteries market size was valued at $0.3 billion in 2021, and dual-ion batteries industry is projected to reach $1.6 billion by 2031, growing at a CAGR of 16.4% from 2022 to 2031.
A dual-ion battery is a type of rechargeable battery that uses two different types of ions, typically sodium, and magnesium, to store and release energy. Unlike traditional lithium-ion batteries, which rely solely on lithium ions, dual-ion batteries use both positively and negatively charged ions to produce a higher energy density and faster charging times. This type of battery typically consists of two electrodes, one for each type of ion, separated by an electrolyte solution. When the battery is charged, the ions move from one electrode to the other, storing energy. When the battery is discharged, the ions move back to their original electrodes, releasing energy. Dual-ion batteries are still in the early stages of development, but they hold great promise for use in a variety of applications, including electric vehicles, portable electronics, and grid-scale energy storage.

Dual-ion batteries have a higher energy density compared to conventional batteries which is a significant factor driving the demand for the dual-ion batteries market. The presence of higher energy density means it can store more energy per unit volume or mass, which can lead to longer battery life, smaller, lighter batteries, and potentially lower cost. The main advantages of using dual-ion batteries for environmental sustainability include high safety due to the use of an aqueous/non-aqueous electrolyte. The use of low-cost and green raw electrode materials in dual-ion batteries offers huge advantages compared to lithium-ion batteries in terms of environmental protection.

Dual-ion batteries have emerged as compelling electrochemical energy storage devices. Cathodes made of highly abundant carbon-based materials, like natural graphite, are less costly and more sustainable. The development of energy storage technologies such as dual-ion batteries is essential for a sustainable future. A comparative life cycle environmental impact analysis of lithium-ion and nickel-metal hydride batteries showed that lithium-ion batteries have a higher environmental impact. The share of the total environmental impact of e-mobility caused by the battery is 15%, which is mainly due to lithium-ion batteries. A 2019 study shows that 40% of the total climate impact caused by the production of lithium-ion batteries comes from the mining process itself. The presence of the abovementioned applications in the upcoming years will drive the demand for the dual-ion batteries market.

Despite these growth opportunities, the dual-ion batteries market also faces some restraints, such as limited availability and fluctuations in raw material prices. However, the market is expected to continue growing as more industries and applications require electronic systems, and the demand for sustainable energy solutions continues to increase.
The global dual-ion batteries market analysis is segmented into type, application, and region. Based on type, the market is divided into metal-organic, metal-metal, sodium-ion, zinc-ion, and others. By application, it is divided into electric vehicles, portable electronics, renewable energy storage, medical devices, and others. By region, the market is studied across North America, Europe, Asia-Pacific, and LAMEA.

North America is one of the largest markets for dual-ion batteries in the world, with a significant share of the global market. The region is home to many leading dual-ion batteries manufacturers and suppliers, and the market is expected to continue to grow due to the increasing demand for electronic systems in various applications. The dual-ion batteries market in North America is driven by demand from various industries, including telecommunications, automotive, aerospace, and defense. North American companies and research institutions have been actively developing dual-ion battery technology in recent years. For example, researchers at the University of Maryland have developed a high-performance dual-ion battery that uses magnesium and sodium ions instead of lithium ions, which could potentially reduce the cost and environmental impact of battery production. Meanwhile, companies such as Ionic Materials, Pellion Technologies, and Wildcat Discovery Technologies are also working on developing and commercializing dual-ion battery technology.

IMPACT OF COVID-19 ON THE GLOBAL DUAL-ION BATTERIES MARKET
The pandemic caused disruptions in supply chains and manufacturing processes, which affected the production of dual-ion batteries. The restrictions and regulations imposed by governments to control the spread of the virus also led to a decline in investment and research and development activities in the sector.
However, as the pandemic progressed, the demand for electric vehicles increased as people looked for sustainable and environmentally friendly options for transportation. The rise in demand for EVs positively impacted the dual-ion batteries market, leading to an increase in production and sales.

The pandemic also led to an increased focus on the importance of battery technology for renewable energy storage, which has driven investment and research into improving the efficiency and sustainability of dual-ion batteries.
Post-pandemic, the global dual-ion batteries market is projected to grow at a significant rate in the coming years, with increasing demand for electric vehicles and the need for efficient energy storage solutions. The pandemic may have caused disruptions in the short term, but it has also highlighted the importance of developing resilient and sustainable technologies to address global challenges.

Competitive Landscape
Key players in the dual-ion batteries industry are Faradion Limited, Tiamat Energy, Prieto Battery, Excellatron, Ionic Materials, Solid Energy Systems, Qing Tao Energy Development Co., Ltd., Sion Power, Custom cells Itzehoe GmbH, and Jenax. These players have adopted investment strategies in research and development to commercialize dual-ion batteries in the market.

Key Benefits For Stakeholders
●This report provides a quantitative analysis of the market segments, current trends, estimations, and dynamics of the dual-ion batteries market analysis from 2021 to 2031 to identify the prevailing dual-ion batteries market opportunities.
●The market research is offered along with information related to key drivers, restraints, and opportunities.
●Porter's five forces analysis highlights the potency of buyers and suppliers to enable stakeholders make profit-oriented business decisions and strengthen their supplier-buyer network.
●In-depth analysis of the dual-ion batteries market segmentation assists to determine the prevailing market opportunities.
●Major countries in each region are mapped according to their revenue contribution to the global market.
●Market player positioning facilitates benchmarking and provides a clear understanding of the present position of the market players.
●The report includes the analysis of the regional as well as global dual-ion batteries market trends, key players, market segments, application areas, and market growth strategies.

Key Market Segments
By Type
● Metal-Organic
● Metal-Metal
● Sodium-Ion
● Zinc-Ion
● Others
By Application
● Electric Vehicles
● Portable Electronics
● Renewable Energy Storage
● Medical Devices
● Others
By Region
● North America
○ U.S.
○ Canada
○ Mexico
● Europe
○ Germany
○ France
○ Italy
○ UK
○ Spain
○ Rest of Europe
● Asia-Pacific
○ China
○ Japan
○ India
○ South Korea
○ Australia
○ Rest of Asia-Pacific
● LAMEA
○ Brazil
○ South Africa
○ Saudi Arabia
○ Rest of LAMEA
● Key Market Players
○ Tiamat Energy
○ Jenax
○ Sion Power
○ Ionic Materials
○ Custom Cells Itzehoe GmbH
○ Qing Tao Energy Development Co., Ltd.
○ Prieto Battery
○ Excellatron
○ Solid Energy Systems
○ Faradion Limited



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Table of Contents

CHAPTER 1: INTRODUCTION
1.1. Report description
1.2. Key market segments
1.3. Key benefits to the stakeholders
1.4. Research Methodology
1.4.1. Primary research
1.4.2. Secondary research
1.4.3. Analyst tools and models
CHAPTER 2: EXECUTIVE SUMMARY
2.1. CXO Perspective
CHAPTER 3: MARKET OVERVIEW
3.1. Market definition and scope
3.2. Key findings
3.2.1. Top impacting factors
3.2.2. Top investment pockets
3.3. Porter’s five forces analysis
3.3.1. Bargaining power of suppliers
3.3.2. Bargaining power of buyers
3.3.3. Threat of substitutes
3.3.4. Threat of new entrants
3.3.5. Intensity of rivalry
3.4. Market dynamics
3.4.1. Drivers
3.4.1.1. Dual-ion batteries have a higher energy density compared to conventional lithium-ion batteries
3.4.1.2. Growth in awareness related to environmental sustainability
3.4.1.3. Growth in demand for energy storage
3.4.1.4. Government initiatives and subsidies promoting the adoption of electric vehicles and renewable energy sources

3.4.2. Restraints
3.4.2.1. Limited availability of raw materials required for dual-ion batteries
3.4.2.2. High manufacturing costs compared to conventional battery technologies

3.4.3. Opportunities
3.4.3.1. Potential applications in emerging markets

3.5. COVID-19 Impact Analysis on the market
3.6. Key Regulation Analysis
3.7. Value Chain Analysis
CHAPTER 4: DUAL-ION BATTERIES MARKET, BY TYPE
4.1. Overview
4.1.1. Market size and forecast
4.2. Metal-Organic
4.2.1. Key market trends, growth factors and opportunities
4.2.2. Market size and forecast, by region
4.2.3. Market share analysis by country
4.3. Metal-Metal
4.3.1. Key market trends, growth factors and opportunities
4.3.2. Market size and forecast, by region
4.3.3. Market share analysis by country
4.4. Sodium-Ion
4.4.1. Key market trends, growth factors and opportunities
4.4.2. Market size and forecast, by region
4.4.3. Market share analysis by country
4.5. Zinc-Ion
4.5.1. Key market trends, growth factors and opportunities
4.5.2. Market size and forecast, by region
4.5.3. Market share analysis by country
4.6. Others
4.6.1. Key market trends, growth factors and opportunities
4.6.2. Market size and forecast, by region
4.6.3. Market share analysis by country
CHAPTER 5: DUAL-ION BATTERIES MARKET, BY APPLICATION
5.1. Overview
5.1.1. Market size and forecast
5.2. Electric Vehicles
5.2.1. Key market trends, growth factors and opportunities
5.2.2. Market size and forecast, by region
5.2.3. Market share analysis by country
5.3. Portable Electronics
5.3.1. Key market trends, growth factors and opportunities
5.3.2. Market size and forecast, by region
5.3.3. Market share analysis by country
5.4. Renewable Energy Storage
5.4.1. Key market trends, growth factors and opportunities
5.4.2. Market size and forecast, by region
5.4.3. Market share analysis by country
5.5. Medical Devices
5.5.1. Key market trends, growth factors and opportunities
5.5.2. Market size and forecast, by region
5.5.3. Market share analysis by country
5.6. Others
5.6.1. Key market trends, growth factors and opportunities
5.6.2. Market size and forecast, by region
5.6.3. Market share analysis by country
CHAPTER 6: DUAL-ION BATTERIES MARKET, BY REGION
6.1. Overview
6.1.1. Market size and forecast By Region
6.2. North America
6.2.1. Key trends and opportunities
6.2.2. Market size and forecast, by Type
6.2.3. Market size and forecast, by Application
6.2.4. Market size and forecast, by country
6.2.4.1. U.S.
6.2.4.1.1. Key market trends, growth factors and opportunities
6.2.4.1.2. Market size and forecast, by Type
6.2.4.1.3. Market size and forecast, by Application
6.2.4.2. Canada
6.2.4.2.1. Key market trends, growth factors and opportunities
6.2.4.2.2. Market size and forecast, by Type
6.2.4.2.3. Market size and forecast, by Application
6.2.4.3. Mexico
6.2.4.3.1. Key market trends, growth factors and opportunities
6.2.4.3.2. Market size and forecast, by Type
6.2.4.3.3. Market size and forecast, by Application
6.3. Europe
6.3.1. Key trends and opportunities
6.3.2. Market size and forecast, by Type
6.3.3. Market size and forecast, by Application
6.3.4. Market size and forecast, by country
6.3.4.1. Germany
6.3.4.1.1. Key market trends, growth factors and opportunities
6.3.4.1.2. Market size and forecast, by Type
6.3.4.1.3. Market size and forecast, by Application
6.3.4.2. France
6.3.4.2.1. Key market trends, growth factors and opportunities
6.3.4.2.2. Market size and forecast, by Type
6.3.4.2.3. Market size and forecast, by Application
6.3.4.3. Italy
6.3.4.3.1. Key market trends, growth factors and opportunities
6.3.4.3.2. Market size and forecast, by Type
6.3.4.3.3. Market size and forecast, by Application
6.3.4.4. UK
6.3.4.4.1. Key market trends, growth factors and opportunities
6.3.4.4.2. Market size and forecast, by Type
6.3.4.4.3. Market size and forecast, by Application
6.3.4.5. Spain
6.3.4.5.1. Key market trends, growth factors and opportunities
6.3.4.5.2. Market size and forecast, by Type
6.3.4.5.3. Market size and forecast, by Application
6.3.4.6. Rest of Europe
6.3.4.6.1. Key market trends, growth factors and opportunities
6.3.4.6.2. Market size and forecast, by Type
6.3.4.6.3. Market size and forecast, by Application
6.4. Asia-Pacific
6.4.1. Key trends and opportunities
6.4.2. Market size and forecast, by Type
6.4.3. Market size and forecast, by Application
6.4.4. Market size and forecast, by country
6.4.4.1. China
6.4.4.1.1. Key market trends, growth factors and opportunities
6.4.4.1.2. Market size and forecast, by Type
6.4.4.1.3. Market size and forecast, by Application
6.4.4.2. Japan
6.4.4.2.1. Key market trends, growth factors and opportunities
6.4.4.2.2. Market size and forecast, by Type
6.4.4.2.3. Market size and forecast, by Application
6.4.4.3. India
6.4.4.3.1. Key market trends, growth factors and opportunities
6.4.4.3.2. Market size and forecast, by Type
6.4.4.3.3. Market size and forecast, by Application
6.4.4.4. South Korea
6.4.4.4.1. Key market trends, growth factors and opportunities
6.4.4.4.2. Market size and forecast, by Type
6.4.4.4.3. Market size and forecast, by Application
6.4.4.5. Australia
6.4.4.5.1. Key market trends, growth factors and opportunities
6.4.4.5.2. Market size and forecast, by Type
6.4.4.5.3. Market size and forecast, by Application
6.4.4.6. Rest of Asia-Pacific
6.4.4.6.1. Key market trends, growth factors and opportunities
6.4.4.6.2. Market size and forecast, by Type
6.4.4.6.3. Market size and forecast, by Application
6.5. LAMEA
6.5.1. Key trends and opportunities
6.5.2. Market size and forecast, by Type
6.5.3. Market size and forecast, by Application
6.5.4. Market size and forecast, by country
6.5.4.1. Brazil
6.5.4.1.1. Key market trends, growth factors and opportunities
6.5.4.1.2. Market size and forecast, by Type
6.5.4.1.3. Market size and forecast, by Application
6.5.4.2. South Africa
6.5.4.2.1. Key market trends, growth factors and opportunities
6.5.4.2.2. Market size and forecast, by Type
6.5.4.2.3. Market size and forecast, by Application
6.5.4.3. Saudi Arabia
6.5.4.3.1. Key market trends, growth factors and opportunities
6.5.4.3.2. Market size and forecast, by Type
6.5.4.3.3. Market size and forecast, by Application
6.5.4.4. Rest of LAMEA
6.5.4.4.1. Key market trends, growth factors and opportunities
6.5.4.4.2. Market size and forecast, by Type
6.5.4.4.3. Market size and forecast, by Application
CHAPTER 7: COMPETITIVE LANDSCAPE
7.1. Introduction
7.2. Top winning strategies
7.3. Product Mapping of Top 10 Player
7.4. Competitive Dashboard
7.5. Competitive Heatmap
7.6. Top player positioning, 2021
CHAPTER 8: COMPANY PROFILES
8.1. Faradion Limited
8.1.1. Company overview
8.1.2. Key Executives
8.1.3. Company snapshot
8.1.4. Operating business segments
8.1.5. Product portfolio
8.2. Tiamat Energy
8.2.1. Company overview
8.2.2. Key Executives
8.2.3. Company snapshot
8.2.4. Operating business segments
8.2.5. Product portfolio
8.3. Prieto Battery
8.3.1. Company overview
8.3.2. Key Executives
8.3.3. Company snapshot
8.3.4. Operating business segments
8.3.5. Product portfolio
8.4. Excellatron
8.4.1. Company overview
8.4.2. Key Executives
8.4.3. Company snapshot
8.4.4. Operating business segments
8.4.5. Product portfolio
8.5. Ionic Materials
8.5.1. Company overview
8.5.2. Key Executives
8.5.3. Company snapshot
8.5.4. Operating business segments
8.5.5. Product portfolio
8.6. Solid Energy Systems
8.6.1. Company overview
8.6.2. Key Executives
8.6.3. Company snapshot
8.6.4. Operating business segments
8.6.5. Product portfolio
8.7. Qing Tao Energy Development Co., Ltd.
8.7.1. Company overview
8.7.2. Key Executives
8.7.3. Company snapshot
8.7.4. Operating business segments
8.7.5. Product portfolio
8.8. Sion Power
8.8.1. Company overview
8.8.2. Key Executives
8.8.3. Company snapshot
8.8.4. Operating business segments
8.8.5. Product portfolio
8.9. Custom Cells Itzehoe GmbH
8.9.1. Company overview
8.9.2. Key Executives
8.9.3. Company snapshot
8.9.4. Operating business segments
8.9.5. Product portfolio
8.10. Jenax
8.10.1. Company overview
8.10.2. Key Executives
8.10.3. Company snapshot
8.10.4. Operating business segments
8.10.5. Product portfolio

 

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