| 223 - 224 |
Primates show mixed response to quantum dots
Sealy C |
| 224 - 225 |
Researchers put the squeeze on drug delivery
Sealy C |
| 225 - 226 |
Enzyme turns nanosensing upside-down
Sealy C |
| 226 - 227 |
Researchers shed light on nanorod growth
Sealy C |
| 228 - 230 |
Beyond biomarkers: Identifying cell state using unbiased nanosensor arrays
Duncan B, Elci SG, Rotello VM |
| 231 - 244 |
"High-content quantum dot-based subtype diagnosis and classification of breast cancer patients using hypermulticolor quantitative single cell imaging cytometry"
Tak YK, Naoghare PK, Kim BJ, Kim MJ, Lee ES, Song JM |
| 245 - 257 |
Ultrastable synergistic tetravalent RNA nanoparticles for targeting to cancers
Haque F, Shu D, Shu Y, Shlyakhtenko LS, Rychahou PG, Evers BM, Guo PX |
| 258 - 281 |
Implantation of nanomaterials and nanostructures on surface and their applications
Bai CL, Liu MH |
| 282 - 296 |
Fluorescent, magnetic and plasmonic-Hybrid multifunctional colloidal nano objects
Bigall NC, Parak WJ, Dorfs D |
| 297 - 315 |
Biogenic and biomimetic magnetic nanosized assemblies
Lu Y, Dong L, Zhang LC, Su YD, Yu SH |
| 316 - 326 |
Preparation of polymer-nanocrystals hybrid solar cells through aqueous approaches
Wei HT, Zhang H, Sun HZ, Yang B |
| 327 - 343 |
Branched nanowires: Synthesis and energy applications
Cheng CW, Fan HJ |
| 344 - 366 |
Mesoporous titania: From synthesis to application
Zhang RY, Elzatahry AA, Al-Deyab SS, Zhao DY |
| 367 - 379 |
Co-delivery of siRNA and therapeutic agents using nanocarriers to overcome cancer resistance
Creixell M, Peppas NA |
