Keyphrases
Sodium Borohydride
100%
High Pressure
100%
H2 Generation
100%
Formic Acid
100%
Sequential Reaction
100%
Sodium Borohydride Hydrolysis
50%
Formic Acid Dehydrogenation
50%
Hydrogen Generation
25%
Acid Activation
25%
Cell-based
25%
Overall Process
25%
Economic Analysis
25%
Electric Vehicle
25%
Coupling Reaction
25%
Closed-loop System
25%
Regenerative Process
25%
Cost-benefit
25%
Storage Capacity
25%
Dehydrogenation
25%
Moderate Temperature
25%
Innovative Approach
25%
Hydrogen Pressure
25%
Process Efficiency
25%
Mutual Inhibition
25%
Water-soluble Catalyst
25%
Overall Cost
25%
Compression Technologies
25%
Chemical Hydrogen Storage Materials
25%
Potential Energy Savings
25%
High-pressure Hydrogen
25%
Hydrogen Refueling Station
25%
Potential Cost Savings
25%
Hydrogen Cycling
25%
Heat Coupling
25%
Vehicle Refueling
25%
Engineering
Borohydride
100%
Dehydrogenation
50%
Hydrogen Generation
16%
Storage Capacity
16%
Inhibition
16%
Electric Vehicle
16%
Potential Energy
16%
Moderate Temperature
16%
Closed System
16%
Chemical Hydrogen Storage
16%
Fuel Cell
16%
Chemical Engineering
Formic Acid
100%
Dehydrogenation
50%