| 1 - 11 |
Measurements of electronic cigarette-generated particles for the evaluation of lung cancer risk of active and passive users
Scungio M, Stabile L, Buonanno G |
| 12 - 28 |
Subject-variability effects on micron particle deposition in human nasal cavities
Calmet H, Kleinstreuer C, Houzeaux G, Kolanjiyil AV, Lehmkuhl O, Olivares E, Vazquez M |
| 29 - 45 |
Simulation of size-dependent aerosol deposition in a realistic model of the upper human airways
Frederix EMA, Kuczaj AK, Nordlund M, Belka M, Lizal F, Jedelsky J, Elcner J, Jicha M, Geurts BJ |
| 46 - 61 |
Aerosol-radiation interaction in atmospheric models: Idealized sensitivity study of simulated short-wave direct radiative effects to particle microphysical properties
Obiso V, Jorba O |
| 62 - 69 |
Exhaled breath barbotage: A new method of pulmonary surfactant dysfunction assessing
Mizev A, Shmyrova A, Mizeva I, Pshenichnikova-Peleneva I |
| 70 - 95 |
Evaluation of a Lagrangian Soot Tracking Method for the prediction of primary soot particle size under engine-like conditions
Ong JC, Pang KM, Walther JH, Ho JH, Ng HK |
| 96 - 107 |
Parametric synthesis study of iron based nanoparticles via aerosol spray pyrolysis route
Kastrinaki G, Lorentzou S, Karagiannakis G, Rattenbury M, Woodhead J, Konstandopoulos AG |
| 108 - 112 |
Bioaerosol: A bridge and opportunity for many scientific research fields
Yao MS |
| 113 - 120 |
Statistical evaluation of disinfection performance of chlorine dioxide and WAHW in improving indoor air quality of university library
Lu MC, Hsu CS, Huang DJ, Liang CK, Huang JW |
| 121 - 132 |
One year of temporal characterization of fungal spore concentration in Sao Paulo metropolitan area, Brazil
Emygdio APM, Degobbi C, Goncalves FLT, Andrade MD |
| 133 - 145 |
Comparing the performance of 3 bioaerosol samplers for influenza virus
Li JY, Leavey A, Wang Y, O'Neil C, Wallace MA, Burnham CAD, Boon ACM, Babcock H, Biswas P |
| 146 - 157 |
Determination and risk assessment of airborne endotoxin concentrations in a university campus
Liu H, Zhang ZW, Wen NJ, Wang C |
| 158 - 163 |
Survival of aerosolized coronavirus in the ambient air
Pyankov OV, Bodnev SA, Pyankova OG, Agranovski IE |
| 164 - 172 |
The impact of ambient humidity on the evaporation and dispersion of exhaled breathing droplets: A numerical investigation
Ji YC, Qian H, Ye J, Zheng XH |
| 173 - 180 |
A semi-quantitative method for point-of-care assessments of specific pathogenic bioaerosols using a portable microfluidics-based device
Liu Q, Zhang XL, Li XX, Liu SX, Sui GD |
| 181 - 189 |
Investigation of live and dead status of airborne bacteria using UVAPS with LIVE/DEAD (R) BacLight Kit
Nasrabadi AM, An S, Kwon SB, Hwang J |
| 190 - 197 |
Comparison of lab-made electrostatic rod-type sampler with single stage viable impactor for identification of indoor airborne bacteria
Kim HR, Park JW, Kim HS, Yong D, Hwang J |
