| 439 - 440 |
Communicating nanoparticles improve tumor targeting
Sealy C |
| 440 - 441 |
Magnetic nanoparticles turn up the heat on tumors
Sealy C |
| 441 - 442 |
Nanoscale carpet makes objects invisible
Sealy C |
| 442 - 443 |
Hot tip for flexible fabrication of ferroelectrics
Sealy C |
| 443 - 443 |
Researchers switch onto ZnO nanowire piezotronic memories
Sealy C |
| 444 - 445 |
Taking a rational approach to ZnO nanowire growth
Sealy C |
| 446 - 465 |
Cellular toxicity of inorganic nanoparticles: Common aspects and guidelines for improved nanotoxicity evaluation
Soenen SJ, Rivera-Gil P, Montenegro JM, Parak WJ, De Smedt SC, Braeckmans K |
| 466 - 477 |
In vivo modulation of dendritic cells by engineered materials: Towards new cancer vaccines
Kim J, Mooney DJ |
| 478 - 492 |
Emerging nanomaterials for targeting subcellular organelles
Huang JG, Leshuk T, Gu FX |
| 493 - 509 |
Advancements and challenges in development of atomic force microscopy for nanofabrication
Tseng AA |
| 510 - 530 |
Engineering biomimetic superhydrophobic surfaces of electrospun nanomaterials
Wang XF, Ding B, Yu JY, Wang MR |
| 531 - 545 |
Advances in resistive pulse sensors: Devices bridging the void between molecular and microscopic detection
Kozak D, Anderson W, Vogel R, Trau M |
