| 1 - 1 |
The other nanotech
[Anonymous] |
| 2 - 4 |
How spintronics went from the lab to the iPod
McCray WP |
| 5 - 6 |
From two cultures to new cultures
Toumey C |
| 7 - 8 |
A new approach to intellectual property
Sandhu A |
| 13 - 14 |
MOLECULAR SELF-ASSEMBLY Helping themselves
Otto S |
| 14 - 15 |
NANOPARTICLES Designer labels for virus coats
Carrico IS, Kirshenbaurn K |
| 16 - 17 |
QUANTUM DOTS Putting the squeeze on nanocrystals
Rosenthal SJ, McBride JR |
| 17 - 18 |
NANOWIRES Bringing order to twin-plane defects
Ross FM |
| 18 - 18 |
SURFACE PATTERNING Electric fieldwork
Reid T |
| 19 - 24 |
Enzyme-assisted self-assembly under thermodynamic control
Williams RJ, Smith AM, Collins R, Hodson N, Das AK, Ulijn RV |
| 25 - 29 |
High-throughput solution processing of large-scale graphene
Tung VC, Allen MJ, Yang Y, Kaner RB |
| 30 - 33 |
Gram-scale production of graphene based on solvothermal synthesis and sonication
Choucair M, Thordarson P, Stride JA |
| 34 - 39 |
Power generation with laterally packaged piezoelectric fine wires
Yang RS, Qin Y, Dai LM, Wang ZL |
| 40 - 44 |
Fast, sensitive and spectrally tuneable colloidal quantum-dot photodetectors
Clifford JP, Konstantatos G, Johnston KW, Hoogland S, Levina L, Sargent EH |
| 45 - 49 |
Optically monitoring the mechanical assembly of single molecules
Kufer SK, Strackharn M, Stahl SW, Gumpp H, Puchner EM, Gaub HE |
| 50 - 55 |
Controlled polytypic and twin-plane superlattices in III-V nanowires
Caroff P, Dick KA, Johansson J, Messing ME, Deppert K, Samuelson L |
| 56 - 63 |
Tuning the optical and electronic properties of colloidal nanocrystals by lattice strain
Smith AM, Mohs AM, Nie S |
| 64 - 70 |
Processing and properties of highly enriched double-wall carbon nanotubes
Green AA, Hersam MC |
