| 633 - 633 |
Papers about papers
[Anonymous] |
| 635 - 636 |
The US must help set international standards for nanotechnology
Murashov V, Howard J |
| 637 - 638 |
Rhapsody in C
Toumey C |
| 643 - 644 |
NANOSCALE MAGNETOMETRY Microscopy with single spins
Degen C |
| 644 - 644 |
MOLECULAR SWITCHES Order and control
Vaughan O |
| 645 - 646 |
BIOSENSORS New leverage against superbugs
Huber F, Lang HP, Gerber C |
| 646 - 646 |
X-RAY DIFFRACTION Catalysis live
Vaughan O |
| 647 - 648 |
ARTIFICIAL CELLS Designing biomimetic nanomachines
Saraniti M |
| 648 - 648 |
Nano-selenium captures mercury (vol 3, pg 527, 2008)
Ralston N |
| 649 - 653 |
Spatial periodicity in molecular switching
Dri C, Peters MV, Schwarz J, Hecht S, Grill L |
| 654 - 659 |
Current saturation in zero-bandgap, topgated graphene field-effect transistors
Meric I, Han MY, Young AF, Ozyilmaz B, Kim P, Shepard KL |
| 660 - 665 |
Integration of photonic and silver nanowire plasmonic waveguides
Pyayt AL, Wiley B, Xia YN, Chen A, Dalton L |
| 666 - 670 |
Designing artificial cells to harness the biological ion concentration gradient
Xu J, Lavan DA |
| 671 - 675 |
A thixotropic nanocomposite gel for three-dimensional cell culture
Pek YS, Wan ACA, Shekaran A, Zhuo L, Ying JY |
| 676 - 681 |
Free-standing graphene at atomic resolution
Gass MH, Bangert U, Bleloch AL, Wang P, Nair RR, Geim AK |
| 682 - 690 |
Nanopatterning self-assembled nanoparticle superlattices by moulding microdroplets
Cheng WL, Park NY, Walter MT, Hartman MR, Luo D |
| 691 - 696 |
Nanomechanical detection of antibiotic mucopeptide binding in a model for superbug drug resistance
Ndieyira JW, Watari M, Barrera AD, Zhou D, Vogtli M, Batchelor M, Cooper MA, Strunz T, Horton MA, Abell C, Rayment T, Aeppli G, Mckendry RA |
