Nature Materials
Nature Materials, Vol.6, No.11 Entire volume, number list
ISSN: 1476-1122 (Print)
In this Issue (33 articles)
791 - 791 |
A penny for your thoughts - Even a small effort can have a big impact on science education in Africa. Why don't you try? [Anonymous] |
792 - 793 |
Advancing science in Africa Van Den Brink J, Snyman I |
794 - 794 |
Double trouble [Anonymous] |
794 - 794 |
Reactive oxidation [Anonymous] |
794 - 794 |
What lies beneath [Anonymous] |
794 - 794 |
Silicon does it alone [Anonymous] |
794 - 794 |
9/11 reconstructed [Anonymous] |
795 - 796 |
To twin or not to twin Yamakov VI, Glaessgen EH |
796 - 797 |
What's in a name? deMello JC |
798 - 799 |
A growing science Gregg JF |
799 - 800 |
Photonic crystals go dynamic Bravo-Abad J, Soljacic M |
801 - 801 |
The materials of history Ball P |
801 - 802 |
Buckle or break Carlsson JM |
803 - 804 |
Spintronics goes plastic Sanvito S |
807 - 807 |
Information storage Heber J |
808 - 808 |
Hot chips and cool codes [Anonymous] |
810 - 812 |
Integrated nanoelectronics for the future Chau R, Doyle B, Datta S, Kavalieros J, Zhang K |
813 - 823 |
The emergence of spin electronics in data storage Chappert C, Fert A, Van Dau FN |
824 - 832 |
Phase-change materials for rewriteable data storage Wuttig M, Yamada N |
833 - 840 |
Nanoionics-based resistive switching memories Waser R, Aono M |
841 - 850 |
Nanoelectronics from the bottom up Lu W, Lieber CM |
853 - 857 |
Quantum-spin-liquid states in the two-dimensional kagome antiferromagnets ZnxCu4-x(OD)(6)Cl-2 Lee SH, Kikuchi H, Qiu Y, Lake B, Huang Q, Habicht K, Kiefer K |
858 - 861 |
Intrinsic ripples in graphene Fasolino A, Los JH, Katsnelson MI |
862 - 865 |
Dynamic control of the Q factor in a photonic crystal nanocavity Tanaka Y, Upham J, Nagashima T, Sugiya T, Asano T, Noda S |
866 - 870 |
Internal structure visualization and lithographic use of periodic toroidal holes in liquid crystals Yoon DK, Choi MC, Kim YH, Kim MW, Lavrentovich OD, Jung HT |
871 - 875 |
Cooperative mechanisms of fast-ion conduction in gallium-based oxides with tetrahedral moieties Kendrick E, Kendrick J, Knight KS, Islam MS, Slater PR |
876 - 881 |
Rate dependence of crack-tip processes predicts twinning trends in f.c.c. metals Warner DH, Curtin WA, Qu S |
882 - 887 |
Epitaxial integration of the highly spin-polarized ferromagnetic semiconductor EuO with silicon and GaN Schmehl A, Vaithyanathan V, Herrnberger A, Thiel S, Richter C, Liberati M, Heeg T, Rockerath M, Kourkoutis LF, Muhlbauer S, Boni P, Muller DA, Barash Y, Schubert J, Idzerda Y, Mannhart J, Schlom DG |
888 - 893 |
Order causes secondary Bragg peaks in soft materials Forster S, Timmann A, Schellbach C, Fromsdorf A, Kornowski A, Weller H, Roth SV, Lindner P |
894 - 899 |
Direct measurement of the electric-field distribution in a light-emitting electrochemical cell Slinker JD, DeFranco JA, Jaquith MJ, Silveira WR, Zhong YW, Moran-Mirabal JM, Craighead HG, Abruna HD, Marohn JA, Malliaras GG |
900 - 907 |
Large triangular single crystals formed by mild annealing of self-organized silver nanocrystals Courty A, Henry AI, Goubet N, Pileni MP |
908 - 915 |
Microfluidic scaffolds for tissue engineering Choi NW, Cabodi M, Held B, Gleghorn JP, Bonassar LJ, Stroock AD |
916 - 916 |
Substrate-induced bandgap opening in epitaxial graphene. Zhou SY, Gweon GH, Fedorov AV, First PN, De Heer WA, Lee DH, Guinea F, Neto AHC, Lanzara A |