| 4243 - 4244 |
Introduction: Batteries and fuel cells
Whittingham MS, Savinell RF, Zawodzinski T |
| 4245 - 4269 |
What are batteries, fuel cells, and supercapacitors?
Winter M, Brodd RJ |
| 4271 - 4301 |
Lithium batteries and cathode materials
Whittingham MS |
| 4303 - 4417 |
Nonaqueous liquid electrolytes for lithium-based rechargeable batteries
Xu K |
| 4419 - 4462 |
Battery separators
Arora P, Zhang ZM |
| 4463 - 4492 |
Three-dimensional battery architectures
Long JW, Dunn B, Rolison DR, White HS |
| 4493 - 4512 |
NMR studies of cathode materials for lithium-ion rechargeable batteries
Grey CP, Dupre N |
| 4513 - 4533 |
Role of electronic structure in the susceptibility of metastable transition-metal oxide structures to transformation
Reed J, Ceder G |
| 4535 - 4585 |
State of understanding of Nafion
Mauritz KA, Moore RB |
| 4587 - 4611 |
Alternative polymer systems for proton exchange membranes (PEMs)
Hickner MA, Ghassemi H, Kim YS, Einsla BR, McGrath JE |
| 4613 - 4635 |
X-ray absorption Spectroscopy of low temperature fuel cell catalysts
Russell AE, Rose A |
| 4637 - 4678 |
Transport in proton conductors for fuel-cell applications: Simulations, elementary reactions, and phenomenology
Kreuer KD, Paddison SJ, Spohr E, Schuster M |
| 4679 - 4726 |
Modeling transport in polymer-electrolyte fuel cells
Weber AZ, Newman J |
| 4727 - 4765 |
Fundamental models for fuel cell engineering
Wang CY |
| 4767 - 4789 |
Review of developments in portable hydrogen production using microreactor technology
Holladay JD, Wang Y, Jones E |
| 4791 - 4843 |
Factors governing oxygen reduction in solid oxide fuel cell cathodes
Adler SB |
| 4845 - 4865 |
Direct hydrocarbon solid oxide fuel cells
McIntosh S, Gorte RJ |
| 4867 - 4886 |
Enzymatic biofuel cells for Implantable and microscale devices
Barton SC, Gallaway J, Atanassov P |
