| scholarly article | Q13442814 |
| P356 | DOI | 10.1111/INA.12174 |
| P8608 | Fatcat ID | release_a6qtmffsrnfllnj2psizawpf34 |
| P932 | PMC publication ID | 7165847 |
| P698 | PubMed publication ID | 25483392 |
| P50 | author | William W. Nazaroff | Q57394787 |
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| Indoor particulate matter of outdoor origin: importance of size-dependent removal mechanisms | Q39593301 | ||
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| A comparative study of walking-induced dust resuspension using a consistent test mechanism | Q57109149 | ||
| Measles outbreak in a pediatric practice: airborne transmission in an office setting | Q57113883 | ||
| An outbreak of airborne nosocomial varicella | Q57114726 | ||
| Investigation of the concentration of bacteria and their cell envelope components in indoor air in two elementary schools | Q57120809 | ||
| Assessing the aerodynamic diameters of taxon-specific fungal bioaerosols by quantitative PCR and next-generation DNA sequencing | Q57738923 | ||
| Effect of relative humidity on the aerodynamic diameter and respiratory deposition of fungal spores | Q57998271 | ||
| Efficiency of a Portable Indoor Air Cleaner in Removing Pollens and Fungal Spores | Q58096091 | ||
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| Comparisons of Calculated Respiratory Tract Deposition of Particles Based on the Proposed NCRP Model and the New ICRP66 Model | Q58274162 | ||
| Size-Resolved Concentrations of Particulate Matter and Bioaerosols Inside versus Outside of Homes | Q58305370 | ||
| Respiratory Symptoms and Housing Characteristics | Q58873681 | ||
| Mold spore penetration through wall service outlets: a pilot study | Q61773740 | ||
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| Dispersal of bacteria on desquamated skin | Q76476141 | ||
| AIRBORNE BACTERIAL CONTAMINATION. INVESTIGATION OF HUMAN SOURCES | Q78506164 | ||
| Air infection with dust liberated from clothing | Q79519864 | ||
| AIR-BORNE INFECTION | Q81013474 | ||
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| HVAC filtration for controlling infectious airborne disease transmission in indoor environments: Predicting risk reductions and operational costs | Q91905618 | ||
| P433 | issue | 1 | |
| P921 | main subject | bioaerosol | Q401952 |
| P304 | page(s) | 61-78 | |
| P577 | publication date | 2014-12-05 | |
| P1433 | published in | Indoor Air | Q15756118 |
| P1476 | title | Indoor bioaerosol dynamics | |
| P478 | volume | 26 |
| Q30389525 | Airborne biological hazards and urban transport infrastructure: current challenges and future directions |
| Q92353411 | Antimicrobial Air Filters Using Natural Sea Salt Particles for Deactivating Airborne Bacterial Particles |
| Q92316380 | Characterization of Indoor Air Quality on a College Campus: A Pilot Study |
| Q91907241 | Development of an automated wet-cyclone system for rapid, continuous and enriched bioaerosol sampling and its application to real-time detection |
| Q90743863 | Effects of human activities on concentrations of culturable bioaerosols in indoor air environments |
| Q55301039 | Evaluation of micro-well collector for capture and analysis of aerosolized Bacillus subtilis spores. |
| Q90040193 | Exposure to Bacterial and Fungal Aerosols: Microorganism Indices in A Waste-Sorting Plant in Poland |
| Q77789815 | Field sampling of indoor bioaerosols |
| Q92149460 | Fungal aerosol composition in moldy basements |
| Q34496180 | Humans differ in their personal microbial cloud |
| Q59813610 | Indoor Air Quality and Potential Health Risk Impacts of Exposure to Antibiotic Resistant Bacteria in an Office Rooms in Southern Poland |
| Q46110147 | Influence of moisturizer and relative humidity on human emissions of fluorescent biological aerosol particles |
| Q58271687 | Long-term viable bioaerosol sampling using a temperature- and humidity-controlled filtration apparatus, a laboratory investigation using culturable E. coli. |
| Q95282553 | Practical strategies for a safe and effective delivery of aerosolized medications to patients with COVID-19 |
| Q35855956 | Protocol Improvements for Low Concentration DNA-Based Bioaerosol Sampling and Analysis |
| Q90743884 | Role of viral bioaerosols in nosocomial infections and measures for prevention and control |
| Q64096085 | Seasonal dynamics of DNA and RNA viral bioaerosol communities in a daycare center |
| Q28397267 | Sources of airborne microorganisms in the built environment |
| Q45071969 | Ten Questions Concerning the Aerosolization and Transmission of Legionella in the Built Environment. |
| Q92282803 | The Dose of Fungal Aerosol Inhaled by Workers in a Waste-Sorting Plant in Poland: A Case Study |
| Q35889943 | Total Virus and Bacteria Concentrations in Indoor and Outdoor Air |
| Q90641062 | Tracer gas is a suitable surrogate of exhaled droplet nuclei for studying airborne transmission in the built environment |
| Q46241812 | Transmission of Airborne Bacteria across Built Environments and Its Measurement Standards: A Review. |
| Q41702485 | Walker occupancy has an impact on changing airborne bacterial communities in an underground pedestrian space, as small-dust particles increased with raising both temperature and humidity. |
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