Nature Nanotechnology
Nature Nanotechnology, Vol.8, No.11 Entire volume, number list
ISSN: 1748-3387 (Print)
In this Issue (23 articles)
| 783 - 783 |
A lot to learn [Anonymous] |
| 784 - 786 |
A guide to mentoring undergraduates in the lab Lukeman PS |
| 786 - 789 |
Learning and research in the cloud Madhavan K, Zentner M, Klimeck G |
| 789 - 791 |
An education in progress Nyokong T, Limson J |
| 792 - 793 |
The road ahead Cingolani R |
| 794 - 796 |
Thoughts on an education Walker DA, Britton J, He YM, Keshani MS, Aradhya SV, Malkhasyan V, Zhao JB, Kappeler N |
| 799 - 800 |
NANOIMAGING Hot electrons go through the barrier Schuck PJ |
| 800 - 802 |
SPINTRONICS Skyrmions singled out Duine R |
| 802 - 803 |
SURFACE PLASMONS A probe for graphene electronics Carminati R |
| 803 - 805 |
MAGNETIC PROPERTIES Probing buried interfaces Slavin A |
| 805 - 806 |
POLYMER NANOPARTICLES Weighing up gene delivery Kirtane AR, Panyam J |
| 806 - 806 |
Nanoparticles: Tracking protein corona over time (vol 8, pg 701, 2013) Lundqvist M |
| 807 - 819 |
Optical trapping and manipulation of nanostructures Marago OM, Jones PH, Gucciardi PG, Volpe G, Ferrari AC |
| 821 - 825 |
Electronic and plasmonic phenomena at graphene grain boundaries Fei Z, Rodin AS, Gannett W, Dai S, Regan W, Wagner M, Liu MK, McLeod AS, Dominguez G, Thiemens M, Neto AHC, Keilmann F, Zettl A, Hillenbrand R, Fogler MM, Basov DN |
| 826 - 830 |
Graphene-MoS2 hybrid structures for multifunctional photoresponsive memory devices Roy K, Padmanabhan M, Goswami S, Sai TP, Ramalingam G, Raghavan S, Ghosh A |
| 831 - 838 |
Multivalent ligands control stem cell behaviour in vitro and in vivo Conway A, Vazin T, Spelke DP, Rode NA, Healy KE, Kane RS, Schaffer DV |
| 839 - 844 |
Nucleation, stability and current-induced motion of isolated magnetic skyrmions in nanostructures Sampaio J, Cros V, Rohart S, Thiaville A, Fert A |
| 845 - 852 |
Hot-electron nanoscopy using adiabatic compression of surface plasmons Giugni A, Torre B, Toma A, Francardi M, Malerba M, Alabastri A, Zaccaria RP, Stockman MI, Di Fabrizio E |
| 853 - 858 |
Direct probing of the exchange interaction at buried interfaces Zakeri K, Chuang TH, Ernst A, Sandratskii LM, Buczek P, Qin HJ, Zhang Y, Kirschner J |
| 859 - 864 |
Formation and electronic properties of InSb nanocrosses Plissard SR, van Weperen I, Car D, Verheijen MA, Immink GWG, Kammhuber J, Cornelissen LJ, Szombati DB, Geresdi A, Frolov SM, Kouwenhoven LP, Bakkers EPAM |
| 865 - 872 |
A general strategy for the DNA-mediated self-assembly of functional nanoparticles into heterogeneous systems Zhang YG, Lu F, Yager KG, van der Lelie D, Gang O |
| 873 - 880 |
In vivo biosensing via tissue-localizable near-infrared-fluorescent single-walled carbon nanotubes Iverson NM, Barone PW, Shandell M, Trudel LJ, Sen S, Sen F, Ivanov V, Atolia E, Farias E, McNicholas TP, Reuel N, Parry NMA, Wogan GN, Strano MS |
| 881 - 881 |
Atomic clock transitions in silicon-based spin qubits (vol 8, pg 561, 2013) Wolfowicz G, Tyryshkin AM, George RE, Riemann H, Abrosimov NV, Becker P, Pohl HJ, Thewalt MLW, Lyon SA, Morton JJL |