| 1 - 2 |
Nanoscale carving tunes graphene's bandgap
Sealy C |
| 3 - 4 |
Cellulose ion trap turns heat into electricity
Sealy C |
| 5 - 6 |
Recipe for nanoparticle interfaces revealed
Sealy C |
| 6 - 7 |
Transition metal nanobelts show high conductivity
Sealy C |
| 8 - 12 |
Nanoparticle translocation and multi-organ toxicity: A particularly small problem
Raftis JB, Miller MR |
| 13 - 15 |
Transparent graphene bioelectronics as a new tool for multimodal neural interfaces
Guan SL, Wang JF, Fang Y |
| 16 - 56 |
Tumour microenvironment responsive nanoconstructs for cancer theranostic
Gulzar A, Xu JT, Wang C, He F, Yang D, Gai SL, Yang PP, Lin J, Jin DY, Xing BG |
| 57 - 97 |
Recent progresses in graphene based bio-functional nanostructures for advanced biological and cellular interfaces
Nie CX, Ma L, Li S, Fan X, Yang Y, Cheng C, Zhao WF, Zhao CS |
| 98 - 107 |
DNA nanostructures in vitro, in vivo and on membranes
Bae W, Kocabey S, Liedl T |
| 108 - 122 |
Inherent multifunctional inorganic nanomaterials for imaging-guided cancer therapy
Ju YM, Dong B, Yu J, Hou YL |
| 123 - 148 |
Nanofabrication based on DNA nanotechnology
Zhao Y, Dai XP, Wang F, Zhang XL, Fan CH, Liu XG |
| 149 - 163 |
Fluorescent silicon nanomaterials: from synthesis to functionalization and application
Song B, He Y |
| 164 - 175 |
Structure regulation of noble-metal-based nanomaterials at an atomic level
Mao JJ, Li J, Pei JJ, Liu Y, Wang DS, Li YD |
| 176 - 198 |
Programmable three-dimensional advanced materials based on nanostructures as building blocks for flexible sensors
Lou Z, Wang LL, Jiang K, Shen GZ |
| 199 - 200 |
mRNA therapeutics deliver a hopeful message (vol 23, pg 16, 2018)
Zhong ZF, Mc Cafferty S, Combes F, Huysmans H, De Temmerman J, Gitsels A, Vanrompay D, Catani JP, Sanders NN |
