CONFERENCE STRUCTURE

The conference program will include:

• 5 Plenary Lectures addressing topics of general interest and consisting of one hour lectures with 50 min presentation and 10 min Q&A.
• 5 Keynote Speakers (KS) giving invited talks (30 minutes long including Q&A). Two KS will be scheduled in parallel (one in each amphitheater). No other sessions will run simultaneously to these KS.
• Special Sessions on specific topics selected by the organizers or recommended by the Working Groups of the European Aerosol Assembly. These sessions will be combined with the regular sessions.
• 5 Regular or Special oral sessions running in parallel with presentations of 15 min (including Q&A).
• Poster sessions distributed in two different sessions.
• Late posters and Work-in-Progress. Abstracts submitted after the regular abstract deadline will be included in the two poster sessions.

CONFERENCE TOPICS

EAC2023 topics include all the research and development fields in which aerosols are relevant.

Authors can submit their abstract to one of the available topics (several subtopics can be selected) or special sessions.

Click on the arrows to expand/contract the list under each main topic.

1. Aerosol Technology
   1. Synthesis, structuring and applications of functional nanoparticles
   2. Nanoparticle surface modification, deposition and thin film formation
   3. Process analysis and monitoring
      
   4. Transportation aerosol emissions and control technologies combustion aerosols from vehicles, airplanes and ships
      
   5. Electrical effects including electrosprays and electric discharges
   6. High temperature aerosols and biomass combustion
      
   7. Filtration for functional materials, combustion and industrial aerosols
   8. Aerosol and emissions standards
      
2. Atmospheric Aerosol Studies
   1. Aerosols and clouds in polar regions
   2. Aerosol-cloud-interaction and role in climate feedbacks
      
   3. Atmospheric ice nucleation
   4. New particle formation
   5. Homogeneous, heterogeneous and multiphase chemistry, secondary aerosols
   6. Transport of atmospheric aerosols, modelling and climate forcing
   7. Molecular characterization of atmospheric aerosols
   8. Chemical characterization of carbonaceous aerosols
   9. Sources and source apportionment of atmospheric aerosols
   10. Optical properties, remote sensing, black and brown carbon
   11. Physico-chemical properties of atmospheric aerosols
       
3. Aerosol Measurement Techniques
   1. Instrument and sampler calibration and performance evaluation
   2. Instrumentation for physical aerosol characterization
   3. Instrumentation for chemical aerosol characterization
   4. Instrumentation for biological aerosol characterization
   5. Novel measurement principles and new instrumentation
   6. Miniaturized and low cost instrumentation
   7. Comparison of different measurement methods
   8. Measurement techniques for combustion aerosols
   9. Implementation of existing measurement methods and instruments for novel studies
   10. Interpretation of data
4. Aerosols and Health
   1. Exposure: sources, levels and assessment techniques
   2. Human exposure and health studies
   3. Health-relevant aerosols and their characteristics
   4. Bioaerosols and allergens
   5. Biological and toxicological responses
   6. Health effects of aerosols
   7. Medical and therapeutic applications
   8. Respiratory tract uptake, translocation and clearance
   9. Exposure in specific microenvironments
   10. Occupational exposures
5. Basic Aerosol Processes
   1. Smog chamber and flowtube simulations and experiments
   2. Quantum chemical calculation of aerosol formation and gas-phase kinetics
   3. Molecular dynamics
   4. Nucleation and growth
   5. Aerosol growth and evaporation, agglomeration, fragmentation, material synthesis and filtration
   6. Interaction between aerosols and surfaces, coatings
   7. Aerosol transport properties and fluid dynamics
   8. Aerosol optical properties