| 79 - 79 |
Live wires
[Anonymous] |
| 81 - 83 |
Who is winning the global nanorace?
Hullmann A |
| 85 - 86 |
What can biology teach us?
Jones R |
| 91 - 92 |
Nanoelectronics - Crossing boundaries and borders
Feiner LF |
| 92 - 94 |
Nanomedicine - Seeing the benefits of ceria
Silva GA |
| 94 - 96 |
Materials synthesis - Towering forests of nanotube trees
Baughman RH |
| 96 - 97 |
Richard Smalley - Saving the world with nanotechnology
Nelson DJ, Strano M |
| 98 - 99 |
Nanomagnetism - Spin doctors play with single electrons
Erwin SC |
| 99 - 99 |
Biomaterials: Close to the bone
Thomas J |
| 100 - 101 |
Polymer physics - DNA off the hooke
Podgornik R |
| 103 - 111 |
Inorganic nanotubes and fullerene-like nanoparticles
Tenne R |
| 112 - 116 |
Direct growth of aligned carbon nanotubes on bulk metals
Talapatra S, Kar S, Pal SK, Vajtai R, Ci L, Victor P, Shaijumon MM, Kaur S, Nalamasu O, Ajayan PM |
| 117 - 121 |
Parallel patterning of nanoparticles via electrodynamic focusing of charged aerosols
Kim H, Kim J, Yang HJ, Suh J, Kim T, Han BW, Kim S, Kim DS, Pikhitsa PV, Choi M |
| 122 - 125 |
Mechanochemistry: targeted delivery of single molecules
Duwez AS, Cuenot S, Jerome C, Gabriel S, Jerome R, Rapino S, Zerbetto F |
| 126 - 130 |
Metal-enhanced fluorescence of colloidal nanocrystals with nanoscale control
Pompa PP, Martiradonna L, Della Torre A, Della Sala F, Manna L, De Vittorio M, Calabi F, Cingolani R, Rinaldi R |
| 131 - 136 |
Size-selective growth of double-walled carbon nanotube forests from engineered iron catalysts
Yamada T, Namai T, Hata K, Futaba DN, Mizuno K, Fan J, Yudasaka M, Yumura M, Iijima S |
| 137 - 141 |
High flexibility of DNA on short length scales probed by atomic force microscopy
Wiggins PA, Van der Heijden T, Moreno-Herrero F, Spakowitz A, Phillips R, Widom J, Dekker C, Nelson PC |
| 142 - 150 |
Rare earth nanoparticles prevent retinal degeneration induced by intracellular peroxides
Chen JP, Patil S, Seal S, McGinnis JF |
