鋰電池黑粉回收市場：產業趨勢及全球預測（～2035年）：依電池類型、回收材料類型、技術、電池來源類型及地區

預計全球鋰電池黑粉回收市場規模將從目前的176.9億美元成長至2035年的729.7億美元，預測期內年複合成長率為 15.22%。

鋰電池黑粉回收市場機會：依細分市場

依電池類型劃分

• 鉛酸電池
• 鋰離子電池
• 鎳電池鎘

依回收材料種類

• 鈷
• 銅鋁
• 石墨
• 鋰
• 鎳
• 其他

依科技

• 濕式冶金
• 機械回收
• 火法冶金

依電池來源類型

• 汽車
• 家電
• 工業設備
• 電力

依地區

• 北美
• 美國
• 加拿大
• 墨西哥
• 其他北美地區國家
• 歐洲
• 奧地利
• 比利時
• 丹麥
• 法國
• 德國
• 愛爾蘭
• 義大利
• 荷蘭
• 挪威
• 俄羅斯
• 西班牙
• 瑞典
• 瑞士
• 英國
• 其他歐洲國家
• 亞洲
• 中國
• 印度
• 日本
• 新加坡
• 韓國
• 其他亞洲國家
• 拉丁美洲
• 巴西
• 智利
• 哥倫比亞
• 委內瑞拉
• 其他拉丁美洲國家
• 中東和北美非洲
• 埃及
• 伊朗
• 伊拉克
• 以色列
• 科威特
• 沙烏地阿拉伯
• 阿拉伯聯合大公國
• 中東和北非其他地區
• 世界其他地區
• 澳洲
• 紐西蘭
• 其他國家/地區

鋰電池黑粉回收市場：成長與趨勢

隨著全球向永續實踐的轉變，回收流程日益重要，尤其是在工業領域。隨著電動車和電子設備在全球範圍內的日益普及，電子垃圾的增加已成為一個嚴重的問題， "鋰電池黑粉回收" 應運而生，成為解決這一問題的新方法。這項回收技術包括從廢棄電池（例如鋰離子電池和鉛酸電池）中回收有價值的材料。它包括將廢棄舊電池以機械方式粉碎和研磨成一種稱為鋰電池黑粉的細黑色粉末。環境效益和寶貴資源回收的雙重效應預計將推動市場成長。

此外，嚴格的政府法規以及促進電池回收和循環經濟的措施等關鍵因素也有望推動市場發展。有鑑於此，各參與者正利用關鍵資源日益成長的需求，努力加強回收業務。因此，永續實踐在電子製造業中日益重要，加上鋰離子電池回收技術的進步，預計將在預測期內推動鋰電池黑粉回收市場的發展。

本報告調查了全球鋰電池黑粉回收市場，並提供了市場概況、背景、市場影響因素分析、市場規模趨勢和預測、各細分市場和地區的詳細分析、競爭格局以及主要公司的概況。

目錄

第一部分：報告概述

第1章 引言

第2章 研究方法

第3章 市場動態

第4章 宏觀經濟指標

第二部分：定性洞察

第5章 執行摘要

第6章 引言

第7章 監理情境

第三部分：市場概況

第8章 關鍵資料綜合資料庫參與者

第9章 競爭格局

第10章 空白領域分析

第11章 競爭分析

第12章 黑色回收市場的新創企業生態系

第四部分：公司簡介

第13章 公司簡介

• 章節概述
• Akkuser Oy
• Anglo American
• Aqua Metals
• BASF
• Boliden
• Cirba Solutions
• Contemporary Amperex Technology
• Epiroc
• Fortum
• Glencore
• Heraeus Holding
• Li-Cycle
• Lithion Technologies
• Mestro
• RecycLiCo Battery Materials
• Redwood Materials
• Tenova
• Umicore
• Vedanta Resources
• Ecograf
• TATA Chemicals

第五部分：市場趨勢

第14章 大趨勢分析

第15章 未滿足的需求分析

第16章 專利分析

第17章 近期趨勢

第六部分：市場機會分析

第18章 全球鋰電池黑粉回收市場

第19章 依電池類型劃分的市場機會

第20章 依回收材料類型劃分的市場機會

第21章 依技術劃分的市場機會

第22章 依電池來源類型劃分的市場機會

第23章 北美鋰電池黑粉回收的市場機會

第24章 歐洲鋰電池黑粉回收的市場機會

第25章 亞洲黑色回收市場的機會

第26章 中東和北非黑色回收市場的機會

第27章 拉丁美洲黑色回收市場的機會

第28章 鄰近市場分析

第七部分：策略工具

第29章 市場集中度分析：重點企業分佈

第30章 波特五力模型分析

第31章 SWOT分析

第32章 價值鏈分析

第33章 ROOTS的策略建議

第八部分：其他獨家見解

第34章 初步研究見解

第35章 報告結論

第九部分：附錄

第36章 表格資料

第37章 公司與組織清單

第38章 客製化機會

第39章 ROOTS 訂閱服務

第40章 作者詳情

Black Mass Recycling Market Overview

As per Roots Analysis, the global black mass recycling market size is estimated to grow from USD 17.69 billion in the current year to USD 72.97 billion by 2035, at a CAGR of 15.22% during the forecast period, till 2035.

The opportunity for black mass recycling market has been distributed across the following segments:

Type of Battery

• Lead-Acid
• Lithium-Ion
• Nickel-Cadmium

Type of Recovered Materials

• Cobalt
• Copper and Aluminum
• Graphite
• Lithium
• Nickel
• Others

Type of Technology

• Hydrometallurgy
• Mechanical Recycling
• Pyrometallurgy

Type of Battery Source

• Automotive
• Consumer Electronics
• Industrial Equipment
• Power

Geographical Regions

• North America
• US
• Canada
• Mexico
• Other North American countries
• Europe
• Austria
• Belgium
• Denmark
• France
• Germany
• Ireland
• Italy
• Netherlands
• Norway
• Russia
• Spain
• Sweden
• Switzerland
• UK
• Other European countries
• Asia
• China
• India
• Japan
• Singapore
• South Korea
• Other Asian countries
• Latin America
• Brazil
• Chile
• Colombia
• Venezuela
• Other Latin American countries
• Middle East and North Africa
• Egypt
• Iran
• Iraq
• Israel
• Kuwait
• Saudi Arabia
• UAE
• Other MENA countries
• Rest of the World
• Australia
• New Zealand
• Other countries

BLACK MASS RECYCLING MARKET: GROWTH AND TRENDS

The global transition towards sustainable methodologies has rendered the recycling process particularly significant in the industrial sector. The increasing global adoption of electric vehicles and electronic gadgets raises serious concerns regarding the rising volumes of e-waste. Black mass recycling is gaining traction as a novel approach in managing electronic waste that could effectively address these issues. This recycling technique involves recovering valuable materials from end-of-life batteries, including lithium-ion and lead-acid types. In this process, used batteries are mechanically crushed and shredded into a fine black powder known as black mass. Notably, the environmental advantages, along with the recovery of valuable materials, are likely to fuel the growth of this market.

Additionally, several critical factors, including stringent government regulations and initiatives aimed at promoting battery recycling and a circular economy, are anticipated to propel the market forward. By recognizing these elements, stakeholders are actively working to take advantage of the rising demand for essential materials by enhancing their recycling operations. As a result, the growing significance of sustainable practices in electronics manufacturing, along with advancements in lithium-ion battery recycling technologies, the black mass recycling market is expected to grow during the forecast period.

BLACK MASS RECYCLING MARKET: KEY SEGMENTS

Market Share by Type of Battery

Based on type of battery, the global black mass recycling market is segmented into lead-acid, lithium-ion, and nickel-cadmium. According to our estimates, currently, lithium-ion segment captures the majority share of the market. This can be attributed to its diverse applications, including electric vehicles (EVs), consumer electronics, and energy storage solutions. In addition, lithium-ion batteries contain precious and limited metals like lithium, cobalt, and nickel, which are essential for producing new batteries.

However, the lead-acid batteries segment is expected to grow at a relatively higher CAGR during the forecast period. This growth can be attributed to their widespread use in automotive and industrial applications that ensure reliable power supply.

Market Share by Type of Recovered Material

Based on type of recovered material, the black mass recycling market is segmented into cobalt, copper and aluminum, graphite, lithium, nickel, and others. According to our estimates, currently, lithium captures the majority of the market. This can be attributed to its widespread adoption that significantly contributes to the growth of this segment, as these batteries are preferred for energy storage solutions in electric vehicles and energy storage systems. However, the copper and aluminum segment is expected to grow at a relatively higher CAGR during the forecast period.

Market Share by Type of Technology

Based on type of technology, the black mass recycling market is segmented into hydrometallurgy, mechanical recycling, and pyrometallurgy. According to our estimates, currently, hydrometallurgy technology captures the majority share of the market. This can be attributed to the fact that hydrometallurgical techniques attain impressive recovery efficiencies for valuable metals, such as lithium, cobalt, and nickel from black mass, with minimal losses. However, pyrometallurgy technology is expected to experience the highest compound annual growth rate (CAGR) during the forecast period.

Market Share by Type of Battery Source

Based on type of battery source, the black mass recycling market is segmented into automotive, consumer electronics, industrial equipment, and power. According to our estimates, currently, automotive segment captures the majority share of the market. This growth can be attributed to the surge in electric vehicle production. As the adoption of EVs increases, a significant number of lithium-ion batteries will reach the end of their lifespan, resulting in a notable supply of waste batteries available for recycling. However, the consumer electronics sector is expected to grow at a higher compound annual growth rate (CAGR) during the forecast period.

Market Share by Geographical Regions

Based on geographical regions, the black mass recycling market is segmented into North America, Europe, Asia, Latin America, Middle East and North Africa, and the rest of the world. According to our estimates, currently, North America captures the majority share of the market. However, the market in Asia is expected to grow at a higher compound annual growth rate (CAGR) during the forecast period. This can be attributed to various factors, including significant battery manufacturing, especially in China and South Korea, which are recognized globally as top producers of lithium-ion batteries.

Example Players in Black Mass Recycling Market

• Akkuser Oy
• Anglo American
• Aqua Metals
• BASF
• Boliden
• Cirba Solutions
• Contemporary Amperex Technology
• Epircoc
• Fortum
• Glencore
• Heraeus Holding
• Li-Cycle
• Lithion Technologies
• Mestro
• RecycLiCo Battery Matarials
• Redwood Materials
• Tenova
• Umicore
• Vedanta Resources
• Ecograf
• TATA Chemicals

BLACK MASS RECYCLING MARKET: RESEARCH COVERAGE

The report on the black mass recycling market features insights on various sections, including:

• Market Sizing and Opportunity Analysis: An in-depth analysis of the black mass recycling market, focusing on key market segments, including [A] type of battery, [B] type of recovered materials, [C] type of technology, [D] type of battery source and [E] geographical regions.
• Competitive Landscape: A comprehensive analysis of the companies engaged in the black mass recycling market, based on several relevant parameters, such as [A] year of establishment, [B] company size, [C] location of headquarters and [D] ownership structure.
• Company Profiles: Elaborate profiles of prominent players engaged in the black mass recycling market, providing details on [A] location of headquarters, [B] company size, [C] company mission, [D] company footprint, [E] management team, [F] contact details, [G] financial information, [H] operating business segments, [I] service / product portfolio, [J] moat analysis, [K] recent developments, and an informed future outlook.
• Megatrends: An evaluation of ongoing megatrends in the black mass recycling industry.
• Patent Analysis: An insightful analysis of patents filed / granted in the black mass recycling domain, based on relevant parameters, including [A] type of patent, [B] patent publication year, [C] patent age and [D] leading players.
• Recent Developments: An overview of the recent developments made in the black mass recycling market, along with analysis based on relevant parameters, including [A] year of initiative, [B] type of initiative, [C] geographical distribution and [D] most active players.
• Porter's Five Forces Analysis: An analysis of five competitive forces prevailing in the black mass recycling market, including threats of new entrants, bargaining power of buyers, bargaining power of suppliers, threats of substitute products and rivalry among existing competitors.
• SWOT Analysis: An insightful SWOT framework, highlighting the strengths, weaknesses, opportunities and threats in the domain. Additionally, it provides Harvey ball analysis, highlighting the relative impact of each SWOT parameter.
• Value Chain Analysis: A comprehensive analysis of the value chain, providing information on the different phases and stakeholders involved in the black mass recycling domain.

KEY QUESTIONS ANSWERED IN THIS REPORT

• How many companies are currently engaged in black mass recycling market?
• Which are the leading companies in this market?
• What factors are likely to influence the evolution of this market?
• What is the current and future market size?
• What is the CAGR of this market?
• How is the current and future market opportunity likely to be distributed across key market segments?

REASONS TO BUY THIS REPORT

• The report provides a comprehensive market analysis, offering detailed revenue projections of the overall market and its specific sub-segments. This information is valuable to both established market leaders and emerging entrants.
• Stakeholders can leverage the report to gain a deeper understanding of the competitive dynamics within the market. By analyzing the competitive landscape, businesses can make informed decisions to optimize their market positioning and develop effective go-to-market strategies.
• The report offers stakeholders a comprehensive overview of the market, including key drivers, barriers, opportunities, and challenges. This information empowers stakeholders to stay abreast of market trends and make data-driven decisions to capitalize on growth prospects.

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TABLE OF CONTENTS

SECTION I: REPORT OVERVIEW

1. PREFACE

• 1.1. Introduction
• 1.2. Market Share Insights
• 1.3. Key Market Insights
• 1.4. Report Coverage
• 1.5. Key Questions Answered
• 1.6. Chapter Outlines

2. RESEARCH METHODOLOGY

• 2.1. Chapter Overview
• 2.2. Research Assumptions
• 2.3. Database Building
  • 2.3.1. Data Collection
  • 2.3.2. Data Validation
  • 2.3.3. Data Analysis
• 2.4. Project Methodology
  • 2.4.1. Secondary Research
    • 2.4.1.1. Annual Reports
    • 2.4.1.2. Academic Research Papers
    • 2.4.1.3. Company Websites
    • 2.4.1.4. Investor Presentations
    • 2.4.1.5. Regulatory Filings
    • 2.4.1.6. White Papers
    • 2.4.1.7. Industry Publications
    • 2.4.1.8. Conferences and Seminars
    • 2.4.1.9. Government Portals
    • 2.4.1.10. Media and Press Releases
    • 2.4.1.11. Newsletters
    • 2.4.1.12. Industry Databases
    • 2.4.1.13. Roots Proprietary Databases
    • 2.4.1.14. Paid Databases and Sources
    • 2.4.1.15. Social Media Portals
    • 2.4.1.16. Other Secondary Sources
  • 2.4.2. Primary Research
    • 2.4.2.1. Introduction
    • 2.4.2.2. Types
      • 2.4.2.2.1. Qualitative
      • 2.4.2.2.2. Quantitative
    • 2.4.2.3. Advantages
    • 2.4.2.4. Techniques
      • 2.4.2.4.1. Interviews
      • 2.4.2.4.2. Surveys
      • 2.4.2.4.3. Focus Groups
      • 2.4.2.4.4. Observational Research
      • 2.4.2.4.5. Social Media Interactions
    • 2.4.2.5. Stakeholders
      • 2.4.2.5.1. Company Executives (CXOs)
      • 2.4.2.5.2. Board of Directors
      • 2.4.2.5.3. Company Presidents and Vice Presidents
      • 2.4.2.5.4. Key Opinion Leaders
      • 2.4.2.5.5. Research and Development Heads
      • 2.4.2.5.6. Technical Experts
      • 2.4.2.5.7. Subject Matter Experts
      • 2.4.2.5.8. Scientists
      • 2.4.2.5.9. Doctors and Other Healthcare Providers
    • 2.4.2.6. Ethics and Integrity
      • 2.4.2.6.1. Research Ethics
      • 2.4.2.6.2. Data Integrity
  • 2.4.3. Analytical Tools and Databases

3. MARKET DYNAMICS

• 3.1. Forecast Methodology
  • 3.1.1. Top-Down Approach
  • 3.1.2. Bottom-Up Approach
  • 3.1.3. Hybrid Approach
• 3.2. Market Assessment Framework
  • 3.2.1. Total Addressable Market (TAM)
  • 3.2.2. Serviceable Addressable Market (SAM)
  • 3.2.3. Serviceable Obtainable Market (SOM)
  • 3.2.4. Currently Acquired Market (CAM)
• 3.3. Forecasting Tools and Techniques
  • 3.3.1. Qualitative Forecasting
  • 3.3.2. Correlation
  • 3.3.3. Regression
  • 3.3.4. Time Series Analysis
  • 3.3.5. Extrapolation
  • 3.3.6. Convergence
  • 3.3.7. Forecast Error Analysis
  • 3.3.8. Data Visualization
  • 3.3.9. Scenario Planning
  • 3.3.10. Sensitivity Analysis
• 3.4. Key Considerations
  • 3.4.1. Demographics
  • 3.4.2. Market Access
  • 3.4.3. Reimbursement Scenarios
  • 3.4.4. Industry Consolidation
• 3.5. Robust Quality Control
• 3.6. Key Market Segmentations
• 3.7. Limitations

4. MACRO-ECONOMIC INDICATORS

• 4.1. Chapter Overview
• 4.2. Market Dynamics
  • 4.2.1. Time Period
    • 4.2.1.1. Historical Trends
    • 4.2.1.2. Current and Forecasted Estimates
  • 4.2.2. Currency Coverage
    • 4.2.2.1. Overview of Major Currencies Affecting the Market
    • 4.2.2.2. Impact of Currency Fluctuations on the Industry
  • 4.2.3. Foreign Exchange Impact
    • 4.2.3.1. Evaluation of Foreign Exchange Rates and Their Impact on Market
    • 4.2.3.2. Strategies for Mitigating Foreign Exchange Risk
  • 4.2.4. Recession
    • 4.2.4.1. Historical Analysis of Past Recessions and Lessons Learnt
    • 4.2.4.2. Assessment of Current Economic Conditions and Potential Impact on the Market
  • 4.2.5. Inflation
    • 4.2.5.1. Measurement and Analysis of Inflationary Pressures in the Economy
    • 4.2.5.2. Potential Impact of Inflation on the Market Evolution
  • 4.2.6. Interest Rates
    • 4.2.6.1. Overview of Interest Rates and Their Impact on the Market
    • 4.2.6.2. Strategies for Managing Interest Rate Risk
  • 4.2.7. Commodity Flow Analysis
    • 4.2.7.1. Type of Commodity
    • 4.2.7.2. Origins and Destinations
    • 4.2.7.3. Values and Weights
    • 4.2.7.4. Modes of Transportation
  • 4.2.8. Global Trade Dynamics
    • 4.2.8.1. Import Scenario
    • 4.2.8.2. Export Scenario
  • 4.2.9. War Impact Analysis
    • 4.2.9.1. Russian-Ukraine War
    • 4.2.9.2. Israel-Hamas War
  • 4.2.10. COVID Impact / Related Factors
    • 4.2.10.1. Global Economic Impact
    • 4.2.10.2. Industry-specific Impact
    • 4.2.10.3. Government Response and Stimulus Measures
    • 4.2.10.4. Future Outlook and Adaptation Strategies
  • 4.2.11. Other Indicators
    • 4.2.11.1. Fiscal Policy
    • 4.2.11.2. Consumer Spending
    • 4.2.11.3. Gross Domestic Product (GDP)
    • 4.2.11.4. Employment
    • 4.2.11.5. Taxes
    • 4.2.11.6. R&D Innovation
    • 4.2.11.7. Stock Market Performance
    • 4.2.11.8. Supply Chain
    • 4.2.11.9. Cross-Border Dynamics

SECTION II: QUALITATIVE INSIGHTS

5. EXECUTIVE SUMMARY

6. INTRODUCTION

• 6.1. Chapter Overview
• 6.2. Overview of Black Mass Recycling Market
  • 6.2.1. Type of Battery
  • 6.2.2. Type of Recovered Material
  • 6.2.3. Type of Technology
  • 6.2.4. Type of Battery Source
• 6.3. Future Perspective

7. REGULATORY SCENARIO

SECTION III: MARKET OVERVIEW

8. COMPREHENSIVE DATABASE OF LEADING PLAYERS

9. COMPETITIVE LANDSCAPE

• 9.1. Chapter Overview
• 9.2. Black Mass Recycling: Overall Market Landscape
  • 9.2.1. Analysis by Year of Establishment
  • 9.2.2. Analysis by Company Size
  • 9.2.3. Analysis by Location of Headquarters
  • 9.2.4. Analysis by Ownership Structure

10. WHITE SPACE ANALYSIS

11. COMPANY COMPETITIVENESS ANALYSIS

12. STARTUP ECOSYSTEM IN THE BLACK MASS RECYCLING MARKET

• 12.1. Black Mass Recycling: Market Landscape of Startups
  • 12.1.1. Analysis by Year of Establishment
  • 12.1.2. Analysis by Company Size
  • 12.1.3. Analysis by Company Size and Year of Establishment
  • 12.1.4. Analysis by Location of Headquarters
  • 12.1.5. Analysis by Company Size and Location of Headquarters
  • 12.1.6. Analysis by Ownership Structure
• 12.2. Key Findings

SECTION IV: COMPANY PROFILES

13. COMPANY PROFILES

• 13.1. Chapter Overview
• 13.2. Akkuser Oy*
  • 13.2.1. Company Overview
  • 13.2.2. Company Mission
  • 13.2.3. Company Footprint
  • 13.2.4. Management Team
  • 13.2.5. Contact Details
  • 13.2.6. Financial Performance
  • 13.2.7. Operating Business Segments
  • 13.2.8. Service / Product Portfolio (project specific)
  • 13.2.9. MOAT Analysis
  • 13.2.10. Recent Developments and Future Outlook
• 13.3. Anglo American
• 13.4. Aqua Metals
• 13.5. BASF
• 13.6. Boliden
• 13.7. Cirba Solutions
• 13.8. Contemporary Amperex Technology
• 13.9. Epiroc
• 13.10. Fortum
• 13.11. Glencore
• 13.12. Heraeus Holding
• 13.13. Li-Cycle
• 13.14. Lithion Technologies
• 13.15. Mestro
• 13.16. RecycLiCo Battery Materials
• 13.17. Redwood Materials
• 13.18. Tenova
• 13.19. Umicore
• 13.20. Vedanta Resources
• 13.21. Ecograf
• 13.22. TATA Chemicals

SECTION V: MARKET TRENDS

14. MEGA TRENDS ANALYSIS

15. UNMET NEED ANALYSIS

16. PATENT ANALYSIS

17. RECENT DEVELOPMENTS

• 17.1. Chapter Overview
• 17.2. Recent Funding
• 17.3. Recent Partnerships
• 17.4. Other Recent Initiatives

SECTION VI: MARKET OPPORTUNITY ANALYSIS

18. GLOBAL BLACK MASS RECYCLING MARKET

• 18.1. Chapter Overview
• 18.2. Key Assumptions and Methodology
• 18.3. Trends Disruption Impacting Market
• 18.4. Demand Side Trends
• 18.5. Supply Side Trends
• 18.6. Global Black Mass Recycling Market, Historical Trends (Since 2020) and Forecasted Estimates (Till 2035)
• 18.7. Multivariate Scenario Analysis
  • 18.7.1. Conservative Scenario
  • 18.7.2. Optimistic Scenario
• 18.8. Investment Feasibility Index
• 18.9. Key Market Segmentations

19. MARKET OPPORTUNITIES BASED ON TYPE OF BATTERY

• 19.1. Chapter Overview
• 19.2. Key Assumptions and Methodology
• 19.3. Revenue Shift Analysis
• 19.4. Market Movement Analysis
• 19.5. Penetration-Growth (P-G) Matrix
• 19.6. Black Mass Recycling Market for Lead-Acid: Historical Trends (Since 2020) and Forecasted Estimates (Till 2035)
• 19.7. Black Mass Recycling Market for Lithium-Ion: Historical Trends (Since 2020) and Forecasted Estimates (Till 2035)
• 19.8. Black Mass Recycling Market for Nickel-Cadmium: Historical Trends (Since 2020) and Forecasted Estimates (Till 2035)
• 19.9. Data Triangulation and Validation
  • 19.9.1. Secondary Sources
  • 19.9.2. Primary Sources
  • 19.9.3. Statistical Modeling

20. MARKET OPPORTUNITIES BASED ON TYPE OF RECOVERED MATERIAL

• 20.1. Chapter Overview
• 20.2. Key Assumptions and Methodology
• 20.3. Revenue Shift Analysis
• 20.4. Market Movement Analysis
• 20.5. Penetration-Growth (P-G) Matrix
• 20.6. Black Mass Recycling Market for Cobalt: Historical Trends (Since 2020) and Forecasted Estimates (Till 2035)
• 20.7. Black Mass Recycling Market for Copper and Aluminum: Historical Trends (Since 2020) and Forecasted Estimates (Till 2035)
• 20.8. Black Mass Recycling Market for Graphite: Historical Trends (Since 2020) and Forecasted Estimates (Till 2035)
• 20.9. Black Mass Recycling Market for Lithium: Historical Trends (Since 2020) and Forecasted Estimates (Till 2035)
• 20.10. Black Mass Recycling Market for Nickel: Historical Trends (Since 2020) and Forecasted Estimates (Till 2035)
• 20.11. Black Mass Recycling Market for Others: Historical Trends (Since 2020) and Forecasted Estimates (Till 2035)
• 20.12. Data Triangulation and Validation
  • 20.12.1. Secondary Sources
  • 20.12.2. Primary Sources
  • 20.12.3. Statistical Modeling

21. MARKET OPPORTUNITIES BASED ON TYPE OF TECHNOLOGY

• 21.1. Chapter Overview
• 21.2. Key Assumptions and Methodology
• 21.3. Revenue Shift Analysis
• 21.4. Market Movement Analysis
• 21.5. Penetration-Growth (P-G) Matrix
• 21.6. Black Mass Recycling Market for Hydrometallurgy: Historical Trends (Since 2020) and Forecasted Estimates (Till 2035)
• 21.7. Black Mass Recycling Market for Mechanical Recycling: Historical Trends (Since 2020) and Forecasted Estimates (Till 2035)
• 21.8. Black Mass Recycling Market for Pyrometallurgy: Historical Trends (Since 2020) and Forecasted Estimates (Till 2035)
• 21.9. Data Triangulation and Validation
  • 21.9.1. Secondary Sources
  • 21.9.2. Primary Sources
  • 21.9.3. Statistical Modeling

22. MARKET OPPORTUNITIES BASED ON TYPE OF BATTERY SOURCE

• 22.1. Chapter Overview
• 22.2. Key Assumptions and Methodology
• 22.3. Revenue Shift Analysis
• 22.4. Market Movement Analysis
• 22.5. Penetration-Growth (P-G) Matrix
• 22.6. Black Mass Recycling Market for Automotive: Historical Trends (Since 2020) and Forecasted Estimates (Till 2035)
• 22.7. Black Mass Recycling Market for Consumer Electronics: Historical Trends (Since 2020) and Forecasted Estimates (Till 2035)
• 22.8. Black Mass Recycling Market for Industrial Equipment: Historical Trends (Since 2020) and Forecasted Estimates (Till 2035)
• 22.9. Black Mass Recycling Market for Power: Historical Trends (Since 2020) and Forecasted Estimates (Till 2035)
• 22.10. Data Triangulation and Validation
  • 22.10.1. Secondary Sources
  • 22.10.2. Primary Sources
  • 22.10.3. Statistical Modeling

23. MARKET OPPORTUNITIES FOR BLACK MASS RECYCLING IN NORTH AMERICA

• 23.1. Chapter Overview
• 23.2. Key Assumptions and Methodology
• 23.3. Revenue Shift Analysis
• 23.4. Market Movement Analysis
• 23.5. Penetration-Growth (P-G) Matrix
• 23.6. Black Mass Recycling Market in North America: Historical Trends (Since 2020) and Forecasted Estimates (Till 2035)
  • 23.6.1. Black Mass Recycling Market in the US: Historical Trends (Since 2020) and Forecasted Estimates (Till 2035)
  • 23.6.2. Black Mass Recycling Market in Canada: Historical Trends (Since 2020) and Forecasted Estimates (Till 2035)
  • 23.6.3. Black Mass Recycling Market in Mexico: Historical Trends (Since 2020) and Forecasted Estimates (Till 2035)
  • 23.6.4. Black Mass Recycling Market in Other North American Countries: Historical Trends (Since 2020) and Forecasted Estimates (Till 2035)
• 23.7. Data Triangulation and Validation

24. MARKET OPPORTUNITIES FOR BLACK MASS RECYCLING IN EUROPE

• 24.1. Chapter Overview
• 24.2. Key Assumptions and Methodology
• 24.3. Revenue Shift Analysis
• 24.4. Market Movement Analysis
• 24.5. Penetration-Growth (P-G) Matrix
• 24.6. Black Mass Recycling Market in Europe: Historical Trends (Since 2020) and Forecasted Estimates (Till 2035)
  • 24.6.1. Black Mass Recycling Market in Austria: Historical Trends (Since 2020) and Forecasted Estimates (Till 2035)
  • 24.6.2. Black Mass Recycling Market in Belgium: Historical Trends (Since 2020) and Forecasted Estimates (Till 2035)
  • 24.6.3. Black Mass Recycling Market in Denmark: Historical Trends (Since 2020) and Forecasted Estimates (Till 2035)
  • 24.6.4. Black Mass Recycling Market in France: Historical Trends (Since 2020) and Forecasted Estimates (Till 2035)
  • 24.6.5. Black Mass Recycling Market in Germany: Historical Trends (Since 2020) and Forecasted Estimates (Till 2035)
  • 24.6.6. Black Mass Recycling Market in Ireland: Historical Trends (Since 2020) and Forecasted Estimates (Till 2035)
  • 24.6.7. Black Mass Recycling Market in Italy: Historical Trends (Since 2020) and Forecasted Estimates (Till 2035)
  • 24.6.8. Black Mass Recycling Market in Netherlands: Historical Trends (Since 2020) and Forecasted Estimates (Till 2035)
  • 24.6.9. Black Mass Recycling Market in Norway: Historical Trends (Since 2020) and Forecasted Estimates (Till 2035)
  • 24.6.10. Black Mass Recycling Market in Russia: Historical Trends (Since 2020) and Forecasted Estimates (Till 2035)
  • 24.6.11. Black Mass Recycling Market in Spain: Historical Trends (Since 2020) and Forecasted Estimates (Till 2035)
  • 24.6.12. Black Mass Recycling Market in Sweden: Historical Trends (Since 2020) and Forecasted Estimates (Till 2035)
  • 24.6.13. Black Mass Recycling Market in Sweden: Historical Trends (Since 2020) and Forecasted Estimates (Till 2035)
  • 24.6.14. Black Mass Recycling Market in Switzerland: Historical Trends (Since 2020) and Forecasted Estimates (Till 2035)
  • 24.6.15. Black Mass Recycling Market in the UK: Historical Trends (Since 2020) and Forecasted Estimates (Till 2035)
  • 24.6.16. Black Mass Recycling Market in Other European Countries: Historical Trends (Since 2020) and Forecasted Estimates (Till 2035)
• 24.7. Data Triangulation and Validation

25. MARKET OPPORTUNITIES FOR BLACK MASS RECYCLING IN ASIA

• 25.1. Chapter Overview
• 25.2. Key Assumptions and Methodology
• 25.3. Revenue Shift Analysis
• 25.4. Market Movement Analysis
• 25.5. Penetration-Growth (P-G) Matrix
• 25.6. Black Mass Recycling Market in Asia: Historical Trends (Since 2020) and Forecasted Estimates (Till 2035)
  • 25.6.1. Black Mass Recycling Market in China: Historical Trends (Since 2020) and Forecasted Estimates (Till 2035)
  • 25.6.2. Black Mass Recycling Market in India: Historical Trends (Since 2020) and Forecasted Estimates (Till 2035)
  • 25.6.3. Black Mass Recycling Market in Japan: Historical Trends (Since 2020) and Forecasted Estimates (Till 2035)
  • 25.6.4. Black Mass Recycling Market in Singapore: Historical Trends (Since 2020) and Forecasted Estimates (Till 2035)
  • 25.6.5. Black Mass Recycling Market in South Korea: Historical Trends (Since 2020) and Forecasted Estimates (Till 2035)
  • 25.6.6. Black Mass Recycling Market in Other Asian Countries: Historical Trends (Since 2020) and Forecasted Estimates (Till 2035)
• 25.7. Data Triangulation and Validation

26. MARKET OPPORTUNITIES FOR BLACK MASS RECYCLING IN MIDDLE EAST AND NORTH AFRICA (MENA)

• 26.1. Chapter Overview
• 26.2. Key Assumptions and Methodology
• 26.3. Revenue Shift Analysis
• 26.4. Market Movement Analysis
• 26.5. Penetration-Growth (P-G) Matrix
• 26.6. Black Mass Recycling Market in Middle East and North Africa (MENA): Historical Trends (Since 2020) and Forecasted Estimates (Till 2035)
  • 26.6.1. Black Mass Recycling Market in Egypt: Historical Trends (Since 2020) and Forecasted Estimates (Till 205)
  • 26.6.2. Black Mass Recycling Market in Iran: Historical Trends (Since 2020) and Forecasted Estimates (Till 2035)
  • 26.6.3. Black Mass Recycling Market in Iraq: Historical Trends (Since 2020) and Forecasted Estimates (Till 2035)
  • 26.6.4. Black Mass Recycling Market in Israel: Historical Trends (Since 2020) and Forecasted Estimates (Till 2035)
  • 26.6.5. Black Mass Recycling Market in Kuwait: Historical Trends (Since 2020) and Forecasted Estimates (Till 2035)
  • 26.6.6. Black Mass Recycling Market in Saudi Arabia: Historical Trends (Since 2020) and Forecasted Estimates (Till 2035)
  • 26.6.7. Neuromorphic Computing Marke in United Arab Emirates (UAE): Historical Trends (Since 2020) and Forecasted Estimates (Till 2035)
  • 26.6.8. Black Mass Recycling Market in Other MENA Countries: Historical Trends (Since 2020) and Forecasted Estimates (Till 2035)
• 26.7. Data Triangulation and Validation

27. MARKET OPPORTUNITIES FOR BLACK MASS RECYCLING IN LATIN AMERICA

• 27.1. Chapter Overview
• 27.2. Key Assumptions and Methodology
• 27.3. Revenue Shift Analysis
• 27.4. Market Movement Analysis
• 27.5. Penetration-Growth (P-G) Matrix
• 27.6. Black Mass Recycling Market in Latin America: Historical Trends (Since 2020) and Forecasted Estimates (Till 2035)
  • 27.6.1. Black Mass Recycling Market in Argentina: Historical Trends (Since 2020) and Forecasted Estimates (Till 2035)
  • 27.6.2. Black Mass Recycling Market in Brazil: Historical Trends (Since 2020) and Forecasted Estimates (Till 2035)
  • 27.6.3. Black Mass Recycling Market in Chile: Historical Trends (Since 2020) and Forecasted Estimates (Till 2035)
  • 27.6.4. Black Mass Recycling Market in Colombia Historical Trends (Since 2020) and Forecasted Estimates (Till 2035)
  • 27.6.5. Black Mass Recycling Market in Venezuela: Historical Trends (Since 2020) and Forecasted Estimates (Till 2035)
  • 27.6.6. Black Mass Recycling Market in Other Latin American Countries: Historical Trends (Since 2020) and Forecasted Estimates (Till 2035)
• 27.7. Data Triangulation and Validation

28. ADJACENT MARKET ANALYSIS

SECTION VII: STRATEGIC TOOLS

29. KEY WINNING STRATEGIES

30. PORTER'S FIVE FORCES ANALYSIS

31. SWOT ANALYSIS

32. VALUE CHAIN ANALYSIS

33. ROOTS STRATEGIC RECOMMENDATIONS

SECTION VIII: OTHER EXCLUSIVE INSIGHTS

34. INSIGHTS FROM PRIMARY RESEARCH

35. REPORT CONCLUSION

SECTION IX: APPENDIX

36. TABULATED DATA

37. LIST OF COMPANIES AND ORGANIZATIONS

38. CUSTOMIZATION OPPORTUNITIES

39. ROOTS SUBSCRIPTION SERVICES

40. AUTHOR DETAILS