Nature Nanotechnology
Nature Nanotechnology, Vol.9, No.10 Entire volume, number list
ISSN: 1748-3387 (Print)
In this Issue (30 articles)
| 725 - 725 |
Ten years in two dimensions [Anonymous] |
| 726 - 730 |
The global growth of graphene Ren WC, Cheng HM |
| 730 - 734 |
Challenges and opportunities in graphene commercialization Zurutuza A, Marinelli C |
| 735 - 736 |
Humanism from a chemist Toumey C |
| 737 - 738 |
Graphene for displays that bend Ahn JH, Hong BH |
| 738 - 739 |
Electrifying inks with 2D materials Torrisi F, Coleman JN |
| 739 - 741 |
Charging graphene for energy Liu J |
| 741 - 742 |
Graphene against corrosion Bohm S |
| 743 - 743 |
Sequencing with graphene pores Drndic M |
| 744 - 745 |
Graphene devices for life Kostarelos K, Novoselov KS |
| 745 - 747 |
Graphene in the sky and beyond Siochi EJ |
| 749 - 749 |
PUBLIC ENGAGEMENT The benefits of communicating Cacciatore MA |
| 750 - 750 |
BACTERIAL NANOWIRES An extended membrane Chun AL |
| 752 - 753 |
2D MATERIALS Valley currents controlled by light Tarasenko S |
| 755 - 767 |
Polycrystalline graphene and other two-dimensional materials Yazyev OV, Chen YP |
| 768 - 779 |
Electronics based on two-dimensional materials Fiori G, Bonaccorso F, Iannaccone G, Palacios T, Neumaier D, Seabaugh A, Banerjee SK, Colombo L |
| 780 - 793 |
Photodetectors based on graphene, other two-dimensional materials and hybrid systems Koppens FHL, Mueller T, Avouris P, Ferrari AC, Vitiello MS, Polini M |
| 794 - 807 |
Graphene spintronics Han W, Kawakami RK, Gmitra M, Fabian J |
| 808 - 813 |
Twist-controlled resonant tunnelling in graphene/boron nitride/graphene heterostructures Mishchenko A, Tu JS, Cao Y, Gorbachev RV, Wallbank JR, Greenaway MT, Morozov VE, Morozov SV, Zhu MJ, Wong SL, Withers F, Woods CR, Kim YJ, Watanabe K, Taniguchi T, Vdovin EE, Makarovsky O, Fromhold TM, Fal'ko VI, Geim AK, Eaves L, Novoselov KS |
| 814 - 819 |
Sensitive room-temperature terahertz detection via the photothermoelectric effect in graphene Cai X, Sushkov AB, Suess RJ, Jadidi MM, Jenkins GS, Nyakiti LO, Myers-Ward RL, Li S, Yan J, Gaskill DK, Murphy TE, Drew HD, Fuhrer MS |
| 820 - 824 |
Optomechanical coupling between a multilayer graphene mechanical resonator and a superconducting microwave cavity Singh V, Bosman SJ, Schneider BH, Blanter YM, Castellanos-Gomez A, Steele GA |
| 825 - 829 |
Valley and band structure engineering of folded MoS2 bilayers Jiang T, Liu HR, Huang D, Zhang S, Li YG, Gong XG, Shen YR, Liu WT, Wu SW |
| 830 - 834 |
Large negative differential conductance in single-molecule break junctions Perrin ML, Frisenda R, Koole M, Seldenthuis JS, Gil JAC, Valkenier H, Hummelen JC, Renaud N, Grozema FC, Thijssen JM, Dulic D, van der Zant HSJ |
| 835 - 840 |
Detection of post-translational modifications in single peptides using electron tunnelling currents Ohshiro T, Tsutsui M, Yokota K, Furuhashi M, Taniguchi M, Kawai T |
| 841 - 844 |
An analysis of nanoscientists as public communicators Dudo A, Kahlor L, AbiGhannam N, Lazard A, Liang MC |
| 845 - 850 |
Self-polarized spin-nanolasers Chen JY, Wong TM, Chang CW, Dong CY, Chen YF |
| 851 - 857 |
Generation and electric control of spin-valley-coupled circular photogalvanic current in WSe2 Yuan HT, Wang XQ, Lian B, Zhang HJ, Fang XF, Shen B, Xu G, Xu Y, Zhang SC, Hwang HY, Cui Y |
| 858 - 866 |
Strong underwater adhesives made by self-assembling multi-protein nanofibres Zhong C, Gurry T, Cheng AA, Downey J, Deng ZT, Stultz CM, Lu TK |
| 867 - 867 |
Manipulation of the nuclear spin ensemble in a quantum dot with chirped magnetic resonance pulses (vol 9, pg 671, 2014) Munsch M, Wust G, Kuhlmann AV, Xue F, Ludwig A, Reuter D, Wieck AD, Poggio M, Warburton RJ |
| 868 - 868 |
Engaging a wider audience Vijayaraghavan A |