Table of Content

Table of Contents
1.0 Strategic Imperatives
1.1 Why Is It Increasingly Difficult to Grow? The Strategic Imperative 8™: Factors Creating Pressure on Growth
1.2 The Strategic Imperative 8™
1.3 The Impact of the Top Three Strategic Imperatives on Growth of Proton-exchange Membrane Fuel Cell Technology
1.4 About the Growth Pipeline Engine™
1.5 Growth Opportunities Fuel the Growth Pipeline Engine™
2.0 Research Context and Summary of Findings
2.1 Research Context
2.2 Research Scope: Key Questions the Research Will Answer
2.3 Research Methodology
2.4 Key Findings in PEMFCs
3.0 PEMFC Technology–Overview
3.1 Fuel Cell Technology Promotes Future Zero Carbon Energy Economy
3.2 PEMFC Technology Components and Working Mechanism
3.3 PEMFC Technology–Key Drivers and Opportunities for Deployment
3.4 Industrial Decarbonization and Energy Efficiency are Expected to Drive Adoption of PEMFCs by 2030
3.5 Supportive Regulatory Framework and Renewable Energy Integration are Expected to Drive PEMFC Adoption by 2030
3.6 Key Restraints to Overcome for Successful Deployment of PEMFCs
3.7 PEMFC Restraints: High Material and System Costs
3.8 PEMFC Restraints: Poor Cell Performance
3.9 PEMFC Restraints: High Manufacturing Cost and Poor Combined Durability-system Cost
3.10 PEMFC Restraints: Low Durability and Stability of Cell Components
4.0 PEMFC Manufacturing Technologies
4.1 Current and Emerging Manufacturing Technologies Used to Produce Fuel Cell Stack Components
4.2 Emerging Manufacturing Technologies of PEMFC
4.3 Additive Manufacturing Technologies of PEMFC
5.0 Innovation Ecosystem– Companies to Watch
5.1 Proton Motor Fuel Cell GmbH, Germany
5.2 SerEnergy, Denmark
5.3 Ballard Power Systems, Canada
5.4 Mpower Innovation, US
5.5 PowerCell Sweden AB, Sweden
5.6 Cummins Inc., US
5.7 Key Innovators and Product Developers of PEM
5.8 Key Innovators and Product Developers of MEA Components
5.9 Key Manufacturers of PEMFC Components and Stacks
6.0 IP Analysis of PEMFCs
6.1 Patent Activity for PEMFCs
6.2 Competitive Landscape in Patent Activity for PEMFCs
7.0 Technology Analysis and Application Prospect
7.1 Fuel Cell Systems Cost and Technical Objectives as Decisive Criteria for Commercialization
7.2 Cost and Performance Analysis of PEMFCs for Transportation Applications
7.3 Cost and Performance Analysis of PEMFCs for Stationary Applications
7.4 PEMFCs Provide Various Benefits for Different Applications
7.5 Application Future of PEMFCs
8.0 Growth Opportunities
8.1 Growth Opportunity: Mass Volume Production to Reduce PEMFC Cost, 2021
8.1 Growth Opportunity: Mass Volume Production to Reduce PEMFC Stacks Cost, 2021 (Continued)
8.2 Growth Opportunity: Strong Focus on Clean Energy Sources Drives the Use of PEMFCs, 2021
8.2 Growth Opportunity: Strong Focus on Clean Energy Sources Drives the Use of PEMFCs, 2021 (Continued)
8.3 Growth Opportunity: Hydrogen Infrastructure Development to Boost Deployment of PEMFCs, 2021
8.3 Growth Opportunity: Hydrogen Infrastructure Development to Boost Deployment of PEMFCs, 2021 (Continued)
9.0 Key Industry Influencers
9.1 Industry Interactions
9.1 Industry Interactions (continued)
9.1 Industry Interactions (continued)
10.0 Next Steps
10.1 Your Next Steps
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