| 355 - 355 |
A Chinese nano-society?
[Anonymous] |
| 357 - 357 |
Materials science in secondary education - Non-MRSEC initiatives
Gogotsi Y, Burnside H, Choi MY, Ferroni J |
| 357 - 357 |
Materials science in secondary education - Clarification of funding sources for MRSEC initiatives
Souza RA |
| 360 - 361 |
Dislocation dynamics - Scars on a colloidal crystal ball
Ling XSS |
| 362 - 363 |
Ab initio modelling - Genesis of crystal structures
Van de Walle A |
| 364 - 365 |
Nanoparticle ensembles - Nanocrystals come to order
Brust M |
| 365 - 365 |
Material witness - Fab DIY
Ball P |
| 366 - 377 |
Nanostructured materials for advanced energy conversion and storage devices
Arico AS, Bruce P, Scrosati B, Tarascon JM, Van Schalkwijk W |
| 378 - 382 |
Nanoscale ferroelectric field-effect writing and reading using scanning tunnelling spectroscopy
Kuffer O, Maggio-Aprile I, Fischer O |
| 383 - 387 |
Electro-tunable optical diode based on photonic bandgap liquid-crystal heterojunctions
Hwang J, Song MH, Park B, Nishimura S, Toyooka T, Wu JW, Takanishi Y, Ishikawa K, Takezoe H |
| 388 - 390 |
How superheated crystals melt
Forsblom M, Grimvall G |
| 391 - 394 |
Evolutionary approach for determining first-principles hamiltonians
Hart GLW, Blum V, Walorski MJ, Zunger A |
| 395 - 398 |
Vibrational coherence of self-organized silver nanocrystals in f.c.c. supra-crystals
Courty A, Mermet A, Albouy PA, Duval E, Pileni MP |
| 399 - 402 |
Supramolecular barrels from amphiphilic rigid-flexible macrocycles
Yang WY, Ahn JH, Yoo YS, Oh NK, Lee M |
| 403 - 406 |
Fabrication of reconfigurable protein matrices by cracking
Zhu XY, Mills KL, Peters PR, Bahng JH, Liu EH, Shim J, Naruse K, Csete ME, Thouless MD, Takayama S |
| 407 - 411 |
Direct visualization of dislocation dynamics in grain-boundary scars
Lipowsky P, Bowick MJ, Meinke JH, Nelson DR, Bausch AR |
| 412 - 418 |
Chiral selectivity in the charge-transfer bleaching of single-walled carbon-nanotube spectra
O'Connell MJ, Eibergen EE, Doorn SK |
