| 14 - 16 |
The future of materials research
[Anonymous] |
| 17 - 27 |
Polymer nanofibers and nanotubes: Charge transport and device applications
Aleshin AN |
| 29 - 34 |
Self-assembly of single-walled carbon nanotubes into a sheet by drop drying
Duggal R, Hussain F, Pasquali M |
| 34 - 39 |
Experimental evidence for grain-boundary sliding in ultrafine-grained aluminum processed by severe plastic deformation
Chinh NQ, Szommer P, Horita Z, Langdon TG |
| 39 - 44 |
High-performance polymer membranes for natural-gas sweetening
Lin HQ, Van Wagner E, Raharjo R, Freeman BD, Roman I |
| 44 - 47 |
Charge mobility in the room-temperature liquid-crystalline semiconductor poly(di-n-butylstannane)
de Haas MP, Choffat F, Caseri W, Smith P, Warman JM |
| 48 - 51 |
Laser emission from a polymer-stabilized liquid-crystalline blue phase
Yokoyama S, Mashiko S, Kikuchi H, Uchida K, Nagamura T |
| 51 - 55 |
Multicolor photoluminescence from porous silicon using focused, high-energy helium ions
Teo EJ, Breese MBH, Bettiol AA, Mangaiyarkarasi D, Champeaux F, Watt F, Blackwood DJ |
| 55 - 60 |
Self-assembly combined with photopolymerization for the fabrication of fluorescence "turn-on" vehicle sensors with reversible "on-off" switching properties
Ma GY, Muller AM, Bardeen CJ, Cheng Q |
| 60 - 65 |
Controlled synthesis of abundantly branched, hierarchical nanotrees by electron irradiation of polymers
Cho SO, Lee EJ, Lee HM, Kim JG, Kim YJ |
| 65 - 68 |
Low threshold voltage transistors based on individual single-crystalline submicrometer-sized ribbons of copper phthalocyanine
Tang QX, Li HX, He M, Hu WP, Liu CM, Chen KQ, Wang C, Liu YQ, Zhu DB |
| 69 - 73 |
A mesoporous nanocomposite of TiO2 and carbon nanotubes as a high-rate Li-intercalation electrode material
Moriguchi I, Hidaka R, Yamada H, Kudo T, Murakami H, Nakashima N |
| 73 - 77 |
Growth of carbon nanotubes on clay: Unique nanostructured filler for high-performance polymer nanocomposites
Zhang WD, Phang IY, Liu TX |
| 77 - 79 |
Quantum-dot/organic semiconductor composites for radiation detection
Campbell IH, Crone BK |
| 80 - 83 |
Biofunctionalized pH-responsive microgels for cancer cell targeting: Rational design
Das M, Mardyani S, Chan WCW, Kumacheva E |
| 83 - 87 |
Fracture transitions at a carbon-nanotube/polymer interface
Barber AH, Cohen SR, Eitan A, Schadler LS, Wagner HD |
| 87 - 91 |
Field emission of electrons from single LaB6 nanowires
Zhang H, Tang J, Zhang Q, Zhao GP, Yang G, Zhang J, Zhou O, Qin LC |
| 91 - 95 |
Fluorescence enhancement by metal-core/silica-shell nanoparticles
Tovmachenko OG, Graf C, van den Heuvel DJ, van Blaaderen A, Gerritsen HC |
| 95 - 98 |
Bending of a carbon nanotube in vacuum using a focused ion beam
Park BC, Jung KY, Song WY, Beom-Hoan O, Ahn SJ |
| 98 - 103 |
Photocurrent amplification at carbon nanotube-metal contacts
Lien DH, Hsu WK, Zan HW, Tai NH, Tsai CH |
| 103 - 106 |
High, purely electrostrictive strain in lead-free dielectrics
Ang C, Yu Z |
| 106 - 109 |
WS2 closed nanoboxes synthesized by spray pyrolysis
Bastide S, Duphil D, Borra JP, Levy-Clement C |
| 109 - 114 |
The size-dependent growth direction of ZnSe nanowires
Cai Y, Chan SK, Soar IK, Chan YT, Su DS, Wang N |
| 114 - 117 |
Achieving high-efficiency polymer white-light-emitting devices
Huang JS, Li G, Wu E, Xu QF, Yang Y |
| 118 - 122 |
Synthesis of [(VSe2)n](1.06)[(TaSe2)n] superlattices using a hybrid approach: Self-assembly of amorphous nanostructured reactants
Nguyen NT, Howe B, Hash JR, Liebrecht N, Johnson DC |
| 122 - 125 |
Polypyrrole nanowire actuators
Berdichevsky Y, Lo YH |
