| 1 - 1 |
Chemistry on a global stage
[Anonymous] |
| 3 - 4 |
Science in the service of citizens and consumers
Toumey C |
| 7 - 8 |
SCANNING TUNNELLING MICROSCOPY Closing in on molecular junctions
Heinrich A |
| 8 - 9 |
NANOELECTRONICS Graphene gets a better gap
Roche S |
| 9 - 11 |
QUANTUM COMPUTING Solid-state spins survive
Biercuk MJ, Reilly DJ |
| 11 - 12 |
NANOBIOTECHNOLOGY Nanoparticle coronas take shape
Monopoli MP, Bombelli FB, Dawson KA |
| 13 - 22 |
Nanotechnological strategies for engineering complex tissues
Dvir T, Timko BP, Kohane DS, Langer R |
| 23 - 27 |
Atomic-scale engineering of electrodes for single-molecule contacts
Schull G, Frederiksen T, Arnau A, Sanchez-Portal D, Berndt R |
| 28 - 32 |
Freestanding palladium nanosheets with plasmonic and catalytic properties
Huang XQ, Tang SH, Mu XL, Dai Y, Chen GX, Zhou ZY, Ruan FX, Yang ZL, Zheng NF |
| 33 - 38 |
Vibrational and electronic heating in nanoscale junctions
Ward DR, Corley DA, Tour JM, Natelson D |
| 39 - 44 |
Nanoparticle-induced unfolding of fibrinogen promotes Mac-1 receptor activation and inflammation
Deng ZJ, Liang MT, Monteiro M, Toth I, Minchin RF |
| 45 - 50 |
Large intrinsic energy bandgaps in annealed nanotube-derived graphene nanoribbons
Shimizu T, Haruyama J, Marcano DC, Kosinkin DV, Tour JM, Hirose K, Suenaga K |
| 51 - 56 |
Single-walled carbon nanotubes as excitonic optical wires
Joh DY, Kinder J, Herman LH, Ju SY, Segal MA, Johnson JN, Chan GKL, Park J |
| 57 - 64 |
Multifunctional carbon-nanotube cellular endoscopes
Singhal R, Orynbayeva Z, Sundaram RVK, Niu JJ, Bhattacharyya S, Vitol EA, Schrlau MG, Papazoglou ES, Friedman G, Gogotsi Y |
| 65 - 71 |
Biomagnification of cadmium selenide quantum dots in a simple experimental microbial food chain
Werlin R, Priester JH, Mielke RE, Kramer S, Jackson S, Stoimenov PK, Stucky GD, Cherr GN, Orias E, Holden PA |
