| 7 - 7 |
Nanometer particles: A new frontier for multidisciplinary research
Pui DYH, Chen DR, Brock JR |
| 481 - 495 |
The physical nature of very, very small particles and its impact on their behaviour
Preining O |
| 497 - 509 |
Design and evaluation of a nanometer aerosol differential mobility analyzer (Nano-DMA)
Chen DR, Pui DYH, Hummes D, Fissan H, Quant FR, Sem GJ |
| 511 - 535 |
Synthesis of nanoparticles in the gas phase for electronic, optical and magnetic applications - A review
Kruis FE, Fissan H, Peled A |
| 537 - 552 |
Analysis of biomolecules using electrospray and nanoparticle methods: The gas-phase electrophoretic mobility molecular analyzer (GEMMA)
Kaufman SL |
| 553 - 560 |
Ultrafine (nanometre) particle mediated lung injury
Donaldson K, Li XY, MacNee W |
| 561 - 574 |
Production of protein nanoparticles by electrospray drying
Gomez A, Bingham D, de Juan L, Tang K |
| 575 - 588 |
Engines and nanoparticles: A review
Kittelson DB |
| 589 - 599 |
Sizing nanoparticles with a focusing impactor: Effect of the collector size
de Juan L, de la Mora JF |
| 601 - 615 |
Inversion of ultrafine condensation nucleus counter pulse height distributions to obtain nanoparticle (similar to 3-10 nm) size distributions
Weber RJ, Stolzenburg MR, Pandis SN, McMurry PH |
| 617 - 626 |
High resolution size analysis of nanoparticles and ions: Running a Vienna DMA of near optimal length at Reynolds numbers up to 5000
de Juan L, de la Mora JF |
| 627 - 636 |
Generation of metal nanoparticles by laser ablation of microspheres
Cai H, Chaudhary N, Lee J, Becker MF, Brock JR, Keto JW |
| 637 - 645 |
Nanostructure by design: Solution-phase-processing routes to nanocrystalline metals, ceramics, intermetallics, and composites
Haber JA, Gunda NV, Buhro WE |
| 647 - 659 |
Flame synthesis of composite carbon black-fumed silica nanostructured particles
Spicer PT, Artelt C, Sanders S, Pratsinis SE |
| 661 - 674 |
Electrical discharge regimes and aerosol production in point-to-plane dc high-pressure cold plasmas: Aerosol production by electrical discharges
Borra JP, Goldman A, Goldman M, Boulaud D |
| 675 - 686 |
Synthesis of Y-Fe-O ultrafine particles using inductively coupled plasma
Sugasawa M, Kikukawa N, Ishikawa N, Kayano N, Kimura T |
| 687 - 706 |
Characteristics of SiO2/TiO2 nanocomposite particles formed in a premixed flat flame
Ehrman SH, Friedlander SK, Zachariah MR |
| 707 - 720 |
Hypersonic plasma particle deposition of nanostructured silicon and silicon carbide
Rao NP, Tymiak N, Blum J, Neuman A, Lee HJ, Girshick SL, McMurry PH, Heberlein J |
| 721 - 736 |
Combustion aerosol synthesis of nanoscale ceramic powders
Helble JJ |
| 737 - 748 |
Size-selected nanocrystals of III-V semiconductor materials by the aerotaxy method
Deppert K, Magnusson MH, Samuelson L, Malm JO, Svensson C, Bovin JO |
| 749 - 751 |
Reviews of national research programs in nanoparticle and nanotechnology research - Nanoparticle and nanotechnology research in the USA
Roco MC |
| 751 - 755 |
Nanotechnology in China
Li BC |
| 755 - 757 |
Vapor-phase synthesis and processing of nanoparticle materials (NANO) - A European science foundation (ESF) program
Fissan HJ, Schoonman J |
| 757 - 760 |
Research and applications of nano-particles in Japan
Hayashi C, Oda M |
