| 1 - 2 |
Nanobiomaterials
Ying JY |
| 3 - 3 |
Putting the squeeze on polymers
Sealy C |
| 3 - 4 |
Nanomechanical devices come under control
Sealy C |
| 4 - 5 |
Hydrogel nanoparticles avoid drug delivery obstacles
Sealy C |
| 5 - 5 |
Hybrid nanoparticles could diagnose and target cancer
Sealy C |
| 6 - 6 |
Graphene-CNT superstructure holds promise for hydrogen storage
Sealy C |
| 7 - 7 |
Transforming our view of nanoparticle catalysts
Sealy C |
| 8 - 10 |
Boron nitride nanotubes: An innovative tool for nanomedicine
Ciofani G, Raffa V, Menciassi A, Cuschieri A |
| 11 - 12 |
Is anything out there? What life cycle perspectives of nano-products can tell us about nanoparticles in the environment
Nowack B |
| 13 - 20 |
Colloidal poly-imidazolium salts and derivatives
Zhang Y, Zhao L, Patra PK, Hu DY, Ying JY |
| 21 - 26 |
Fabrication of ordered crystalline zirconium nanoporous membranes by an one-step procedure
Marquez F, Morant C, Pirota KR, Borras A, Sanz JM, Elizalde E |
| 27 - 36 |
Multifunctional nanosystems at the interface of physical and life sciences
Suh WH, Suh YH, Stucky GD |
| 37 - 51 |
Applications of nanomaterials inside cells
Gao JH, Xu B |
| 52 - 65 |
Biomedical nanoparticle carriers with combined thermal and magnetic responses
Liu TY, Hu SH, Liu DM, Chen SY, Chen IW |
| 66 - 80 |
Nanotechnology and nanomaterials: Promises for improved tissue regeneration
Zhang LJ, Webster TJ |
| 81 - 95 |
Shape-controlled synthesis of platinum nanocrystals for catalytic and electrocatalytic applications
Chen JY, Lim B, Lee EP, Xia YN |
| 96 - 106 |
Ferromagnetism as a universal feature of inorganic nanoparticles
Sundaresan A, Rao CNR |
