47 citations as recorded by crossref.

1. The interaction of N2O5 with mineral dust: aerosol flow tube and Knudsen reactor studies C. Wagner et al.
2. An evaluation of reaction probabilities of sulfate and nitrate precursors onto East Asian dust particles C. Song et al.
3. Relevance of the economic crisis in chemical PM10 changes in a semi-arid industrial environment M. Santacatalina et al.
4. Impact of dust on tropospheric chemistry over polluted regions: a case study of the Beijing megacity S. Zhu et al.
5. Heterogeneous Uptake of Amines by Citric Acid and Humic Acid Y. Liu et al.
6. ClNO2 Production from N2O5 Uptake on Saline Playa Dusts: New Insights into Potential Inland Sources of ClNO2 D. Mitroo et al.
7. An aerosol flow tube study of the interaction of N2O5 with calcite, Arizona dust and quartz C. Wagner et al.
8. Factors affecting levels of aerosol sulfate and nitrate on the Western Mediterranean coast N. Galindo et al.
9. On the effect of dust particles on global cloud condensation nuclei and cloud droplet number V. Karydis et al.
10. Heterogeneous reactions of mineral dust aerosol: implications for tropospheric oxidation capacity M. Tang et al.
11. Heterogeneous Uptake of N2O5 in Sand Dust and Urban Aerosols Observed during the Dry Season in Beijing M. Xia et al.
12. Analysis of chemical characteristics of PM2.5 in Beijing over a 1-year period Z. Wang et al.
13. Heterogeneous Photo-oxidation of SO2 in the Presence of Two Different Mineral Dust Particles: Gobi and Arizona Dust J. Park et al.
14. Direct observations of the atmospheric processing of Asian mineral dust R. Sullivan et al.
15. Differences in the reactivity of ammonium salts with methylamine Y. Liu et al.
16. Physicochemical Characteristics and Possible Sources of Individual Mineral Particles in a Dust Storm Episode in Beijing, China J. Li et al.
17. Impact of mineral dust on the global nitrate aerosol direct and indirect radiative effect A. Milousis et al.
18. Kinetics and mechanism of the heterogeneous reaction of N2O5 with mineral dust particles M. Tang et al.
19. The Role of Hydrates, Competing Chemical Constituents, and Surface Composition on ClNO2 Formation H. Royer et al.
20. Heterogeneous reaction of N2O5 with airborne TiO2 particles and its implication for stratospheric particle injection M. Tang et al.
21. Cloud condensation nucleation activities of calcium carbonate and its atmospheric ageing products M. Tang et al.
22. Uptake of NO3 and N2O5 to Saharan dust, ambient urban aerosol and soot: a relative rate study M. Tang et al.
23. Interactions of Water with Mineral Dust Aerosol: Water Adsorption, Hygroscopicity, Cloud Condensation, and Ice Nucleation M. Tang et al.
24. Future warming exacerbated by aged-soot effect on cloud formation U. Lohmann et al.
25. Uptake and diffusion of plasma-generated reactive nitrogen species through keratinized membrane Y. Im et al.
26. Detailed heterogeneous chemistry in an urban plume box model: reversible co-adsorption of O3, NO2, and H2O on soot coated with benzo[a]pyrene M. Springmann et al.
27. Competition between Displacement and Dissociation of a Strong Acid Compared to a Weak Acid Adsorbed on Silica Particle Surfaces: The Role of Adsorbed Water Y. Fang et al.
28. Heterogeneous Interaction of SiO2 with N2O5: Aerosol Flow Tube and Single Particle Optical Levitation–Raman Spectroscopy Studies M. Tang et al.
29. Heterogeneous reaction of N2O5 with illite and Arizona test dust particles M. Tang et al.
30. Effects of heterogeneous reaction with NO2 on ice nucleation activities of feldspar and Arizona Test Dust L. Chen et al.
31. Photoreactivity of NO2 on mineral dusts originating from different locations of the Sahara desert M. Ndour et al.
32. Size-segregated fluxes of mineral dust from a desert area of northern China by eddy covariance G. Fratini et al.
33. Kinetic model framework for aerosol and cloud surface chemistry and gas-particle interactions – Part 1: General equations, parameters, and terminology U. Pöschl et al.
34. Quantifying trace gas uptake to tropospheric aerosol: recent advances and remaining challenges J. Abbatt et al.
35. Exploration of the reactivity of N2O5 with two Si(OH)4 monomers using electronic structure methods S. Messaoudi et al.
36. Kinetics and Product Formation during the Photooxidation of Butanol on Atmospheric Mineral Dust M. Ponczek & C. George
37. Transport Patterns, Size Distributions, and Depolarization Characteristics of Dust Particles in East Asia in Spring 2018 Y. Tian et al.
38. N2O5 uptake onto saline mineral dust: a potential missing source of tropospheric ClNO2 in inland China H. Wang et al.
39. Observations of N 2 O 5 and ClNO 2 at a polluted urban surface site in North China: High N 2 O 5 uptake coefficients and low ClNO 2 product yields X. Wang et al.
40. Uptake of Gaseous Hydrogen Peroxide by Submicrometer Titanium Dioxide Aerosol as a Function of Relative Humidity M. Pradhan et al.
41. Re-examining Dust Chemical Aging and Its Impacts on Earth’s Climate C. Gaston
42. Heterogeneous Atmospheric Chemistry, Ambient Measurements, and Model Calculations of N2O5: A Review W. Chang et al.
43. Dust in the Critical Zone: North American case studies J. Brahney et al.
44. Relative importance of gas uptake on aerosol and ground surfaces characterized by equivalent uptake coefficients M. Li et al.
45. Photochemical reaction of CO2 on atmospheric mineral dusts Y. Deng et al.
46. Nighttime radical observations and chemistry S. Brown & J. Stutz
47. Road-Salt Aerosol Reacts More Efficiently with N2O5 than Sea Spray Aerosol to Produce ClNO2 J. Christie et al.