| 225 - 225 |
Dynamic Imaging of functionalized multi-walled carbon nanotube systemic circulation and urinary excretion
Lacerda L, Soundararajan A, Singh R, Pastorin G, Al-Jamal KT, Turton J, Frederik P, Herrero MA, Bao SLA, Emfietzoglou D, Mather S, Phillips WT, Prato M, Bianco A, Goins B, Kostarelos K |
| 231 - 231 |
One-nanometer-thick seed layer of unilamellar nanosheets promotes oriented growth of oxide crystal films
Shibata T, Fukuda K, Ebina Y, Kogure T, Sasaki T |
| 236 - 236 |
Biodegradable colloidal gels as moldable tissue engineering scaffolds
Wang Q, Wang LM, Detamore MS, Berkland C |
| 240 - 240 |
Controlling morphology in polymer-fullerene mixtures
Moule AJ, Meerholz K |
| 246 - 246 |
An efficient route to mesoporous silica films with perpendicular nanochannels
Nagarajan S, Li MQ, Pai RA, Bosworth JK, Busch P, Smilgies DM, Ober CK, Russell TP, Watkins JJ |
| 252 - 252 |
Polarized luminescence from aligned samples of nematogenic lanthanide complexes
Galyametdinov YG, Knyazev AA, Dzhabarov VI, Cardinaels T, Driesen K, Goerller-Walrand C, Binnemans K |
| 258 - 258 |
Self-supported formatnion of needlelike Co3O4 nanotubes and their application as lithium-ion battery electrodes
Lou XW, Deng D, Lee JY, Feng J, Archer LA |
| 263 - 263 |
Fabrication of oriented multilayers of photosystem I proteins on solid surfaces by auto-metallization
Frolov L, Wilner O, Carmeli C, Carmeli I |
| 267 - 267 |
Preparation and surface activity of single-crystalline NiO(111) nanosheets with hexagonal holes: A semiconductor nanospanner
Hu JC, Zhu KK, Chen LF, Yang HJ, Li Z, Suchopar A, Richards R |
| 272 - 272 |
Superelasticity and shape memory in micro- and nanometer-scale pillars
Juan JMS, No ML, Schuh CA |
| 279 - 279 |
Sequence-dependent fluorescence of DNA-hosted silver nanoclusters
Gwinn EG, O'Neill P, Guerrero AJ, Bouwmeester D, Fygenson DK |
| 284 - 284 |
Self-assembly of a micrometers-long one-dimensional network of cemented Au nanoparticles
Maheshwari V, Kane J, Saraf RE |
| 288 - 288 |
Synthesis and catalytic applications of self-assembled carbon nanofoams
Garcia-Martinez J, Lancaster TM, Ying JY |
| 293 - 293 |
Nanofluidic bipolar transistors
Kalman EB, Vlassiouk I, Siwy ZS |
| 298 - 298 |
Thermophysical properties of conjugated polyelectrolytes
Ortony JH, Yang R, Brzezinski JZ, Edman L, Nguyen TQ, Bazan GC |
| 303 - 303 |
Stress-driven surface topography evolution in nanocrystalline Al thin films
Gianola DS, Eberl C, Cheng XM, Hemker KJ |
| 309 - 309 |
Fabrication and field-emission properties of large-area nanostructures of the organic charge-transfer complex Cu-TCNAQ
Cui S, Li YL, Guo YB, Liu HBA, Song YL, Xu JL, Lv J, Zhu M, Zhu DB |
| 314 - 314 |
Photoswitchable organic nanofibers
Di Benedetto F, Mele E, Camposeo A, Athanassiou A, Cingolani R, Pisignano D |
| 319 - 319 |
Growth of thick MgB2 films by impinging-jet hybrid physical-chemical vapor deposition
Lamborn DR, Wilke RHT, Li Q, Xi XX, Snyder DW, Redwing JM |
| 324 - 324 |
Tandem organic light-emitting mode using hexaazatriphenylene hexacarbonitrile in the intermediate connector
Liao LS, Slusarek WK, Hatwar TK, Ricks ML, Comfort DL |
| 330 - 330 |
Direct delivery and submicrometer Patterning of DNA by a nanofountain probe
Kim KH, Sanedrin RG, Ho AM, Lee SW, Moldovan N, Mirkin CA, Espinosa HD |
| 335 - 335 |
A new avenue to nonfouling materials
Chen SF, Jiang SY |
| 339 - 339 |
In situ self-assembly of thin ZnO nanoplatelets into hierarchical mesocrystal Microtubules with surface grafting of nanorods: A general strategy towards hollow mesocrystal structures
Mo MS, Lim SH, Mai YW, Zheng RK, Ringer SP |
| 343 - 343 |
Inkjet printing of narrow conductive tracks on untreated polymeric substrates
van Osch THJ, Perelaer J, de Laat AWM, Schubert US |
| 346 - 346 |
Chemical nanostructures of multifunctional self-assembled monolayers
Herzer N, Hoeppener S, Schubert US, Fuchs H, Fischer UC |
| 352 - 352 |
Potassium tungsten bronze nanowires: Polarized micro-Raman scattering of individual nanowires and electron field emission from nanowire films
Zheng Z, Yan B, Zhang J, You Y, Lim CT, Shen Z, Yu T |
| 357 - 357 |
Conductive carbon nanotube composite microprobes
Yaglioglu O, Martens R, Hart AJ, Slocum AH |
| 363 - 363 |
Sparse multiwall carbon nanotube electrode arrays for liquid-crystal photonic devices
Wilkinson TD, Wang X, Teo KBK, Milne WI |
