| 429 - 438 |
Submicron droplet formation in the human lung
Haslbeck K, Schwarz K, Hohlfeld JM, Seume JR, Koch W |
| 439 - 446 |
Size distribution of exhaled particles in the range from 0.01 to 2.0 mu m
Holmgren H, Ljungstrom E, Almstrand AC, Bake B, Olin AC |
| 447 - 456 |
Effect of relative humidity and variation of particle number size distribution on the inactivation effectiveness of airborne silver nanoparticles against bacteria bioaerosols deposited on a filter
Lee BU, Yun SH, Jung JH, Bae GN |
| 457 - 467 |
Laboratory and modelling study of the hygroscopic properties of two model humic acid aerosol particles
Pope FD, Harper L, Dennis-Smither BJ, Griffiths PT, Clegg SL, Cox RA |
| 468 - 474 |
Nanoparticle formation in H2O/N-2 and H2O/Ar mixtures under irradiation by 20 MeV protons and positive corona discharge
Imanaka M, Tomita S, Kanda S, Fujieda M, Sasa K, Pedersen JOP, Kudo H |
| 475 - 489 |
The formation and growth of Fe2O3 nanoparticles from the photo-oxidation of iron pentacarbohyl
Saunders RW, Plane JMC |
| 490 - 500 |
Development and performance test of a micromachined unipolar charger for measurements of submicron aerosol particles having a log-normal size distribution
Park D, Kim YH, Lee SG, Kim C, Hwang J, Kim YJ |
| 501 - 512 |
Single-scattering properties of tri-axial ellipsoidal mineral dust aerosols: A database for application to radiative transfer calculations
Meng ZK, Yang P, Kattawar GW, Bi L, Liou KN, Laszlo I |
| 513 - 521 |
Method to measure refractive indices of small nonspherical particles: Application to black carbon particles
Moteki N, Kondo Y, Nakamura S |
