| 685 - 685 |
Green tea drug carrier combats cancer
Sealy C |
| 686 - 686 |
Nanotubes give new heart to patch materials
Sealy C |
| 687 - 687 |
A new twist on graphene electronics
Sealy C |
| 688 - 688 |
Putting the squeeze on benzene yields new material
Sealy C |
| 689 - 690 |
Al nanoparticles put bright future on display
Sealy C |
| 691 - 694 |
Can a silicene transistor be realized?
Zandvliet HJW |
| 695 - 704 |
A multilayered cell culture model for transport study in solid tumors: Evaluation of tissue penetration of polyethyleneimine based cationic micelles
Miura S, Suzuki H, Bae YH |
| 705 - 721 |
Ordered conjugated polymer nano- and microstructures: Structure control for improved performance of organic electronics
Zhai L, Khondaker SI, Thomas J, Shen C, McInnis M |
| 722 - 742 |
Advances in nanofibrous scaffolds for biomedical applications: From electrospinning to self-assembly
Wade RJ, Burdick JA |
| 743 - 758 |
Nanoparticle design to induce tumor immunity and challenge the suppressive tumor microenvironment
Dewitte H, Verbeke R, Breckpot K, De Smedt SC, Lentacker I |
| 759 - 784 |
Nanotopographical surfaces for stem cell fate control: Engineering mechanobiology from the bottom
Chen WQ, Shao Y, Li X, Zhao G, Fu JP |
| 785 - 807 |
Three-dimensional graphene and their integrated electrodes
Xia XH, Chao DL, Zhang YQ, Shen ZX, Fan HJ |
