| Pt. I | | Basic and applied electrochemistry as relevant to fuel cells | | |
| Ch. 1 | | Evolution of electrochemistry | | |
| Ch. 2 | | Electrode/electrolyte interfaces : structure and kinetics of charge transfer | | |
| Ch. 3 | | Electrochemical technologies and applications | | |
| Pt. II | | Fundamental aspects for research and development of fuel cells | | |
| Ch. 4 | | Fuel cell principles | | |
| Ch. 5 | | Electrocatalysis of fuel cell reactions | | |
| Ch. 6 | | Experimental methods in low temperature fuel cells | | |
| Pt. III | | Engineering and technology development aspects of fuel cells | | |
| Ch. 7 | | Modeling analyses : from half-cell to systems | | |
| Ch. 8 | | Fuels : processing, storage, transmission, distribution, and safety | | |
| Pt. IV | | Applications, techno-economic assessments, and prognosis of fuel cells | | |
| Ch. 9 | | Status of fuel cell technologies | | |
| Ch. 10 | | Applications and economics of fuel-cell power plants/power sources | | |
| Ch. 11 | | Competing technologies | | |
| Ch. 12 | | Conclusions and prognosis | | |