International journals
Comparing three air quality indices: Utilizing novel combinations of particulate indicators to characterize air quality in urban Europe,
submitted in 2023.
Oxidative potential in rural, suburban and city centre atmospheric environments in Central Europe,
submitted in 2023.
Ambient air particulate lung deposited surface area (LDSA) levels in urban Europe,
Science of the Total Environment, 2023.
Phenomenology of ultrafine particle concentrations and size distribution across urban Europe,
Environment International, 172 (2023) 107744.
Firework smoke: impacts on urban air quality and deposition in the human respiratory system,
Environmental Pollution, 320 (2023) 121612.
Secondary organic carbon and its contributions in different atmospheric environments of a continental region and seasons,
Atmospheric Research, 278 (2022) 106360.
Quiet new particle formation in the atmosphere,
Frontiers in Environmental Science, 10 (2022) 912385.
Detailed carbon isotope study of PM2.5 aerosols at urban background, suburban background and regional background sites in Hungary,
Atmosphere, 13 (2022) 716.
Particle number concentration: a case study for air quality monitoring,
Atmosphere, 13 (2022) 570.
Numerical simulation of the microphysics and liquid-phase chemical processes in fog using size resolving bin scheme,
Atmospheric Research, 266 (2022) 105972.
Effects of hygroscopic growth of urban aerosol particles on their modelled regional and local deposition in healthy and COPD-compromised human respiratory system,
Science of the Total Environment, 806 (2022) 151202.
Cloud activation properties of aerosol particles in a continental central European urban environment,
Atmospheric Chemistry and Physics, 21 (2021) 11289–11302.
Influence of vegetation on occurrence and time distributions of regional new aerosol particle formation and growth,
Atmospheric Chemistry and Physics, 21 (2021), 2861–2880.
Role of iodine oxoacids in atmospheric aerosol nucleation,
Science, 371 (2021) 589-595
What can we learn about urban air quality with regard to the first outbreak of the COVID-19 pandemic? A case study from Central Europe,
Atmospheric Chemistry and Physics, 20 (2020) 15725-15742.
Decennial time trends and diurnal patterns of particle number concentrations in a Central European city between 2008 and 2018,
Atmospheric Chemistry and Physics, 20 (2020) 12247–12263.
Sources and sinks driving sulfuric acid concentrations in contrasting environments: implications on proxy calculations,
Atmospheric Chemistry and Physics, 20 (2020) 11747–11766.
Fossil fuel combustion, biomass burning and biogenic sources of fine carbonaceous aerosol in the Carpathian Basin,
Atmospheric Chemistry and Physics, 20 (2020) 4295–4312.
Dynamic and timing properties of new aerosol particle formation and consecutive growth events,
Atmospheric Chemistry and Physics 19 (2019) 5835–5852.
Mass size distribution of major monosaccharide anhydrides and mass contribution of biomass burning,
Atmospheric Research 220 (2019) 1–9.
Global analysis of continental boundary layer new particle formation based on long-term measurements,
Atmospheric Chemistry and Physics 18 (2018) 14737-14756.
Wintertime hygroscopicity and volatility of ambient urban aerosol particles,
Atmospheric Chemistry and Physics 18 (2018) 4533-4548.
Comparison of atmospheric new particle formation and growth events in three Central European cities,
Atmospheric Environment 178 (2018) 191–197.
Quantification of an atmospheric nucleation and growth process as a single source of aerosol particles in a city,
Atmospheric Chemistry and Physics 17 (2017) 15007-15017.
Source apportionment of carbonaceous chemical species to fossil fuel combustion, biomass burning and biogenic emissions by a coupled radiocarbon-levoglucosan marker method,
Atmospheric Chemistry and Physics 17 (2017) 13767–13781.
Regional effect on urban atmospheric nucleation,
Atmospheric Chemistry and Physics 16 (2016) 8715–8728.
Measurement, growth types and shrinkage of newly formed aerosol particles at an urban research platform,
Atmospheric Chemistry and Physics 16 (2016) 7837–7851.
Images and properties of individual nucleated particles,
Atmospheric Environment 123 (2015) 166–170.
Lung burden and deposition distribution of inhaled atmospheric urban ultrafine particles as the first step in their health risk assessment,
Atmospheric Environment 104 (2015) 39–49.
Spatial extension of nucleating air masses in the Carpathian Basin,
Atmospheric Chemistry and Physics 14 (2014) 8841–8848.
Comparative study of ultrafine atmospheric aerosol within a city,
Atmospheric Environment 92 (2014) 154–161.
Mass size distribution of carbon in atmospheric humic-like substances and water soluble organic carbon for an urban environment,
Journal of Aerosol Science 56 (2013) 53–60.
Physical properties, chemical composition, sources, spatial distribution and sinks of indoor aerosol particles in a university lecture hall,
Atmospheric Environment 64 (2013) 219–228.
Chemical characterisation of humic-like substances from urban, rural and tropical biomass burning environments using liquid chromatography with UV/vis photodiode array detection and electrospray ionisation mass spectrometry,
Environmental Chemistry 9 (2012) 273–284.
Comparison of particulate number concentrations in three Central European capital cities,
Science of the Total Environment 433 (2012) 418–426.
Time-resolved number concentration and size distribution of aerosol particles in an urban road tunnel,
Boreal Environment Research 16 (2011) 262–272.
Production, growth and properties of ultrafine atmospheric aerosol particles in an urban environment,
Atmospheric Chemistry and Physics 11 (2011) 1339–1353.
A European Aerosol Phenomenology - 3: physical and chemical characteristics of particulate matter from 60 rural, urban, and kerbside sites across Europe,
Atmospheric Environment 44 (2010) 1308–1320.
Chirality and the origin of atmospheric humic-like substances,
Atmospheric Chemistry and Physics 10 (2010) 1315–1327.
Properties and sources of individual particles and some chemical species in the aerosol of a metropolitan underground railway station,
Atmospheric Environment 43 (2009) 3460–3466, doi:10.1016/j.atmosenv.2009.04.042.
Characteristics of new particle formation events and cluster ions at K-puszta, Hungary,
Boreal Environment Research 14 (2009) 683–698.
How many carboxyl groups does an average molecule of humic-like substances contain?,
Atmospheric Chemistry and Physics 8 (2008) 5997–6002.
Properties of atmospheric humic-like substances - water system,
Atmospheric Chemistry and Physics 8 (2008) 2243–2254.
Connecting hygroscopic growth at high humidities to cloud activation for different particle types,
Environmental Research Letters 3 (2008) 035004 (10 pp.), doi:10.1088/1748–9326/3/3/035004.
Hygroscopic growth and activation of HULIS particles: experimental data and a new iterative parameterization scheme for complex aerosol particles,
Atmospheric Chemistry and Physics 8 (2008) 1855–1866.
Study of water-soluble atmospheric humic matter in urban and marine environments,
Atmospheric Research 87 (2008) 1–12.
Time-resolved mass concentration, composition and sources of aerosol particles
in a metropolitan underground railway station,
Atmospheric Environment 41 (2007) 8391–8405, doi:10.1016/j.atmosenv.2007.06.017.
Sampling artefacts, concentration and chemical composition of fine
water-soluble organic carbon and humic-like substances in a continental urban
atmospheric environment,
Atmospheric Environment 41 (2007) 4106–4118, doi:10.1016/j.atmosenv.2007.01.027.
Hygroscopic growth and measured and modeled critical supersaturations of an
atmospheric HULIS sample,
Geophysical Research Letters 34 (2007) L02818, doi:10.1029/2006GL028260.
Surface tension of atmospheric humic-like substances in connection with
relaxation, dilution and solution pH,
Journal of Geophysical Research 111 (2006) D23205, doi:10.1029/2005JD007015.
Changes in chemical composition and mass of atmospheric aerosol pollution
between 1996 and 2002 in a Central European city,
Environmental Pollution 143 (2006) 479–488.
Characterization and diurnal variation of size-resolved inorganic water-soluble
ions at a rural background site,
Journal of Environmental Monitoring 8 (2006) 300–306.
Fine structure of mass size distributions in urban environment,
Atmospheric Environment 39 (2005) 5363–5374.
Chemical composition and mass closure for fine and coarse aerosols at a
kerbside in Budapest, Hungary, in spring 2002,
X-ray Spectrometry 34 (2005) 290–296.
Elemental and organic carbon in urban canyon and background environments in
Budapest, Hungary,
Atmospheric Environment 38 (2004) 27–36.
Determination of platinum in urine and airborne particulate matter from
Budapest and Vienna ,
Microchemical Journal 76 (2004) 31–34.
Temporal variation of secondary organic aerosol in downtown Budapest ,
Journal of Aerosol Science 35S1 (2004) 153–154.
Investigations during summer field campaigns in Central Europe on the
performance of a diffusion denuder for the elimination of sampling artifacts
for carbonaceous aerosols,
Journal of Aerosol Science 35S2 (2004) 1069–1070.
Chemical composition and mass closure of the atmospheric aerosol at K-puszta,
Hungary, in summer 2003,
Journal of Aerosol Science 35S2 (2004) 799–800.
Comparing the elemental concentration of aerosols from urban and rural areas
with applying the calculation of stochastic lung model,
Journal of Aerosol Science 35S1 (2004) 139–140.
Relationship of urban aerosol to road traffic and local meteorology,
Journal of Aerosol Science 34S1 (2003) 695–696.
Mass size distribution of particulate matter in the urban atmosphere,
Journal of Aerosol Science 34S1 (2003) 693–694.
Carbonaceous aerosols and chemical mass closure for fine and coarse particles
at a kerbside in Budapest, Hungary, in spring 2002,
Journal of Aerosol Science 34S2 (2003) 751–752.
Modal characteristics of particulate matter in urban atmospheric aerosols,
Microchemical Journal 73 (2002) 19–26.
Effect of physical exertion on the deposition of urban aerosols in the human
respiratory system,
Journal of Aerosol Science 33 (2002) 983–997.
Composition, size distribution and lung deposition distribution of aerosols
collected in the atmosphere of a speleotherapeutic cave situated below
Budapest, Hungary,
Nuclear Instruments and Methods B189 (2002) 221–226.
Comparative Study of Elemental Mass Size Distributions in Urban Atmospheric
Aerosol,
Journal of Aerosol Science 33 (2002) 339–356.
Effect of particle mass size distribution on the deposition of aerosols in the
human respiratory system,
Journal of Aerosol Science 33 (2002) 119–132.
Comprehensive characterisation of atmospheric aerosols in Budapest, Hungary:
physicochemical properties of inorganic species,
Atmospheric Environment 35 (2001) 4367–4378.
Sources of atmospheric coarse and fine particles in Budapest ,
Journal of Aerosol Science 32S1 (2001) 769–770.
Impact of phase out of leaded gasoline on the air quality in Budapest,
Microchemical Journal 67 (2000) 127–133.
Speciation of arsenic in coarse and fine urban aerosols using sequential
extraction combined with liquid chromatography,
Fresenius Journal of Analytical Chemistry 366 (2000) 830–834.
Elemental size distributions in the urban atmospheric aerosol,
Journal of Aerosol Science 31S1 (2000) 747–748.
Instrumental neutron activation analysis for studying size-fractionated aerosol
samples,
Nuclear Instruments and Methods A435 (1999) 462–474.
Airborne studies of aerosol emissions from savanna fires in southern Africa: 2.
Aerosol chemical composition,
Journal of Geophysical Research 103 (1998) 32119–32128.
Characteristics of size-fractionated urban aerosols and trace gases in
Budapest,
Microchemical Journal 58 (1998) 291–305.
Multi-element composition and sources of size-fractionated aerosols in
Budapest,
Journal of Aerosol Science 29S1 (1998) 67–68.
Combined application of INAA and PIXE for studying the regional aerosol
composition in southern Africa,
Journal of Radioanalytical and Nuclear Chemistry 216 (1997) 143–148.
Regional atmospheric aerosol composition and sources in the Eastern Transvaal,
South Africa, and impact of biomass burning,
Journal of Geophysical Research 101 (1996) 23631–23650.
PIXE analysis of cascade impactor samples collected at the Kruger National
Park, South Africa,
Nuclear Instruments and Methods B85 (1994) 849–855.
Activation analysis with neutron generators using short- lived radionuclides,
Nuclear Instruments and Methods B79 (1993) 564–567.
Fast neutron activation analysis using short-lived radionuclides,
Journal of Radioanalytical and Nuclear Chemistry, Articles 167 (1993)
55–65.
Composition and sources of the regional atmospheric aerosol in the eastern
Transvaal, South Africa, and impact of biomass burning,
Eos Transactions 74 (1993) 129.
Airborne studies of aerosol emissions from savanna fires in southern Africa,
Eos Transactions 74 (1993) 128.
Size-fractionated atmospheric aerosol composition and aerosol sources at
Etosha, Namibia, and Victoria Falls, Zimbabwe,
Eos Transactions 74 (1993) 104.
Regional aerosol composition in Kruger National Park, South Africa, and impact
of biomass burning,
Annales Geophysicae 11 (1993) C228.
Comparison of probabilistic models of the distribution of counts,
Acta Chimica Hungarica – Models in Chemistry 129 (1992) 383–395.
Experimental investigation of statistical models describing distribution of
counts,
Nuclear Instruments and Methods A312 (1992) 591–597.
Experimental investigation of statistical density function of decaying
radioactive sources,
Journal of Radioanalytical and Nuclear Chemistry, Letters 153 (1991)
245–256.
Determination of Y, Ba, Cu and O in superconductors by 14-MeV neutron
activation,
Journal of Radioanalytical and Nuclear Chemistry, Letters 146 (1990)
407–413.
Instrumental correction of time-dependent counting losses in high-rate γ-ray
spectrometry,
Journal of Radioanalytical and Nuclear Chemistry, Articles 140 (1990)
263–270.
Dead-time correction of counting losses in the γ-spectrometry of short-lived
radionuclides,
Journal of Radioanalytical and Nuclear Chemistry, Letters 144 (1990)
241–249.
Books and book chapters
Környezetkémia (Environmental Chemistry, in Hungarian),
Környezettudományi alapok tankönyvsorozat
(Textbooks on Fundamentals of Environmental Sciences, in Hungarian) 341 ps.,
Typotex, Budapest, 2012.
(Textbooks on Fundamentals of Environmental Sciences, in Hungarian) 341 ps.,
Typotex, Budapest, 2012.
Air pollution in underground railway systems,
in: Issues in Environmental Science and Technology: Air Quality in Urban Environments, eds. Harrison, R.M., Hester, R., p. 65–84, Royal Society of Chemistry Publishing, Cambridge, 2009.
Aerosol phenomenology,
51 ps., Office for Official Publications of the European Communities, EUR 23534 EN, Luxembourg, 2008.
A budapesti városi aeroszol
(Urban aerosol in Budapest, in Hungarian),
(Urban aerosol in Budapest, in Hungarian),
in: A kémia újabb eredményei, Vol. 99, p. 67–204, Akadémiai Kiadó, Budapest, 2007.
Budapest levegőszennyezettségének története
(The history of air pollution in Budapest, in Hungarian),
(The history of air pollution in Budapest, in Hungarian),
103 ps., Levegő Munkacsoport, Budapest, 2007.
Műszeres neutronaktivációs analízis
(Instrumental neutron activation analysis, in Hungarian),
(Instrumental neutron activation analysis, in Hungarian),
in: Az elemanalitika korszerű módszerei (Modern methods of
elemental analysis), ed. Záray, Gy., p. 417–506, Akadémiai Kiadó, Budapest, 2005.
Chemical characteristics and temporal variation of size-fractionated urban
aerosols and trace gases in Budapest,
in: Aerosol Chemical Processes in the Environment, ed. Spurny, K.R., p.
415–430, CRC Press Lewis, Boca Raton, 2000.
A γ-sugárzás kölcsönhatása az anyaggal, és bevezetés a sokcsatormás γ-spektrometriába
(Interaction of γ rays with matter and introduction to multichannel γ-ray spectrometry, in Hungarian),
(Interaction of γ rays with matter and introduction to multichannel γ-ray spectrometry, in Hungarian),
Technical University of Budapest, Department of
Physical Chemistry, CD-ROM version and on the Word Wide Web at URL
http://oktatas.ch.bme.hu/oktatas/konyvek/fizkem/gamma, Budapest, 1999.
Biomass burning in the global environment: First results from the IGAC/ BIBEX
field campaign STARE/TRACE-A/SAFARI-92,
in: Global Atmospheric-Biospheric Chemistry, ed. Prinn, R., p. 83–101,
Plenum Press, New York, 1994.
Miscellaneous
A COVID-19 világjárvány és a Medárd-napi esőzések: betekintés Budapest levegőminőségének kérdéskörébe
(COVID-19 pandemic and St. Medard’s forty days of rain: insight into the air quality of Budapest, in Hungarian)
(COVID-19 pandemic and St. Medard’s forty days of rain: insight into the air quality of Budapest, in Hungarian)
Természet Világa, 151/11 (2020) 501–504.
Légkörkémiai folyamatok és éghajlatváltozás
(Atmospheric chemical processes and climate change, in Hungarian)
(Atmospheric chemical processes and climate change, in Hungarian)
Magyar Kémikusok Lapja, 75/12 (2020), 33–36.
A széntartalmú légköri aeroszol forrásai és jelentősége
(Sources and importance of carbonaceous aerosol, in Hungarian)
(Sources and importance of carbonaceous aerosol, in Hungarian)
Magyar Kémiai Folyóirat, submitted, 126 (2020) 129-134.
Légköri nukleáció és következményei
(Atmospheric nucleation and its consequences, in Hungarian),
(Atmospheric nucleation and its consequences, in Hungarian),
Magyar Kémiai Folyóirat 125 (2019) 64–69.
Előszó: környezetkémiai kutatások az életminőség javítása érdekében
(Preface: environmental chemistry for improving the welfare of the humanity,
in Hungarian),
(Preface: environmental chemistry for improving the welfare of the humanity,
in Hungarian),
Magyar Kémiai Folyóirat 125 (2019) 47–48.
Aeroszol részecskék vándorúton: honnan jönnek és hová tartanak?
(Wandering aerosol particles: where do they come from and
where do they tend, in Hungarian),
(Wandering aerosol particles: where do they come from and
where do they tend, in Hungarian),
Élet és Tudomány 70/6 (2015) 178-179.
Krétapor a levegőben
(Chalk dust in the air, in Hungarian),
(Chalk dust in the air, in Hungarian),
Természet Világa 144/6 (2013) 277-279.
A légköri aeroszol jelentősége és hatásai
(Importance and effects of atmospheric aerosols, in Hungarian),
(Importance and effects of atmospheric aerosols, in Hungarian),
Magyar Kémiai Folyóirat 118 (2012) 107-114.
A Várhegy-alagút közepén
(In the middle of the Castle District Tunnel, in Hungarian),
(In the middle of the Castle District Tunnel, in Hungarian),
Természet Világa 142/6 (2011) 257–259.
Banángörbe Budapesten
(Banana curves in Budapest, in Hungarian),
(Banana curves in Budapest, in Hungarian),
Élet és Tudomány 65/21 (2010) 643.
Tendenciák a városi levegőminőség alakulásában
(Trends in air quality in large cities, in Hungarian),
(Trends in air quality in large cities, in Hungarian),
Magyar Tudomány 171/3 (2010) 288-199.
Nanorészecskék a levegőben: áldás vagy átok?
(Nanoparticles in the air: blessing or curse?, in Hungarian),
(Nanoparticles in the air: blessing or curse?, in Hungarian),
Élet és Tudomány 64/51–52 (2009) 1654–1656.
Egy nap a budapesti metróban
(One day in the Budapest metro, in Hungarian),
(One day in the Budapest metro, in Hungarian),
Természet Világa 138/10 (2007) 449–452.
A légköri aeroszol szerepe a globális éghajlatváltozásban
(Climate effects of atmospheric aerosols, in Hungarian),
(Climate effects of atmospheric aerosols, in Hungarian),
Magyar Tudomány 167/2 (2006) 205–211.
Budapest: poros és fakó város?
(Budapest: dusty and pale city?, in Hungarian),
(Budapest: dusty and pale city?, in Hungarian),
Természet Világa 137/3 (2006) 124–126.
Anyagvizsgálatok neutronokkal
(Investigations of matter by neutrons, in Hungarian),
(Investigations of matter by neutrons, in Hungarian),
in: Nukleáris tudomány és a 20. század, ed. Vértes, A., p. 75–89, Műhelytanulmányok. Stratégiai Kutatások a Magyar Tudományos Akadémián, Budapest, 2001.
Nemzetközi és nemzeti Hevesy-díjak
(International and national Hevesy awards, in Hungarian),
(International and national Hevesy awards, in Hungarian),
Magyar Kémiai Folyóirat 107 (2001) 452.
Nukleáris kémia
(Advances in nuclear chemistry in Hungary, in Hungarian),
(Advances in nuclear chemistry in Hungary, in Hungarian),
in: Kémiai tudományok az ezredfordulón, szerk. Görög, S., p. 27–34,
Műhelytanulmányok. Stratégiai Kutatások a Magyar Tudományos Akadémián, Budapest, 2000.
Műhelytanulmányok. Stratégiai Kutatások a Magyar Tudományos Akadémián, Budapest, 2000.