| 205 - 206 |
Probing the history of nanotechnology
Toumey C |
| 209 - 210 |
NANOELECTRONICS Transistors arrive at the atomic limit
Lansbergen GP |
| 210 - 211 |
SCANNING PROBE MICROSCOPY Seeing the charge within
Grutter P |
| 212 - 213 |
BIOSENSING When less is more in a nanopore
Gu LQ, Ritzo B, Wang Y |
| 213 - 214 |
MOLECULAR MOTORS Myosin shifts into reverse gear
Walter WJ, Diez S |
| 217 - 226 |
The emergence of multifrequency force microscopy
Garcia R, Herruzo ET |
| 227 - 231 |
Imaging the charge distribution within a single molecule
Mohn F, Gross L, Moll N, Meyer G |
| 232 - 236 |
Tunable doping of a metal with molecular spins
Gang T, Yilmaz MD, Atac D, Bose SK, Strambini E, Velders AH, de Jong MP, Huskens J, van der Wiel WG |
| 237 - 241 |
Quantitative super-resolution imaging uncovers reactivity patterns on single nanocatalysts
Zhou XC, Andoy NM, Liu GK, Choudhary E, Han KS, Shen H, Chen P |
| 242 - 246 |
A single-atom transistor
Fuechsle M, Miwa JA, Mahapatra S, Ryu H, Lee S, Warschkow O, Hollenberg LCL, Klimeck G, Simmons MY |
| 247 - 251 |
Electrical control of a solid-state flying qubit
Yamamoto M, Takada S, Bauerle C, Watanabe K, Wieck AD, Tarucha S |
| 252 - 256 |
Engineering controllable bidirectional molecular motors based on myosin
Chen L, Nakamura M, Schindler TD, Parker D, Bryant Z |
| 257 - 263 |
Stochastic sensing of proteins with receptor-modified solid-state nanopores
Wei RS, Gatterdam V, Wieneke R, Tampe R, Rant U |
| 264 - U1500 |
Oral exposure to polystyrene nanoparticles affects iron absorption
Mahler GJ, Esch MB, Tako E, Southard TL, Archer SD, Glahn RP, Shuler ML |
| 271 - 271 |
A protein transistor made of an antibody molecule and two gold nanoparticles (vol 7, pg 197, 2012)
Chen YS, Hong MY, Huang GS |
