38 citations as recorded by crossref.

1. Herbivory by an Outbreaking Moth Increases Emissions of Biogenic Volatiles and Leads to Enhanced Secondary Organic Aerosol Formation Capacity P. Yli-Pirilä et al.
2. Interactions of peroxy radicals from monoterpene and isoprene oxidation simulated in the radical volatility basis set M. Schervish et al.
3. Suppression of new particle formation from monoterpene oxidation by NOx J. Wildt et al.
4. Decrease in radiative forcing by organic aerosol nucleation, climate, and land use change J. Zhu et al.
5. Importance of Hydroxyl Radical Chemistry in Isoprene Suppression of Particle Formation from α-Pinene Ozonolysis Y. Wang et al.
6. Urban stress-induced biogenic VOC emissions and SOA-forming potentials in Beijing A. Ghirardo et al.
7. Secondary organic aerosol formation from hydroxyl radical oxidation and ozonolysis of monoterpenes D. Zhao et al.
8. A chamber study of the influence of boreal BVOC emissions and sulfuric acid on nanoparticle formation rates at ambient concentrations M. Dal Maso et al.
9. Airborne observations of IEPOX-derived isoprene SOA in the Amazon during SAMBBA J. Allan et al.
10. Isoprene suppression of new particle formation: Potential mechanisms and implications S. Lee et al.
11. Modelling the influence of biotic plant stress on atmospheric aerosol particle processes throughout a growing season D. Taipale et al.
12. Acid-Catalyzed Reactions of Epoxides for Atmospheric Nanoparticle Growth W. Xu et al.
13. Modeling the isoprene emission rate from leaves R. Monson et al.
14. Impact of insect herbivory on plant stress volatile emissions from trees: A synthesis of quantitative measurements and recommendations for future research C. Faiola & D. Taipale
15. Chemical composition of secondary organic aerosol particles formed from mixtures of anthropogenic and biogenic precursors Y. Shao et al.
16. Environmental conditions regulate the impact of plants on cloud formation D. Zhao et al.
17. Considering the Air Quality Impacts of Bioenergy Crop Production: A Case Study Involving Arundo donax W. Porter et al.
18. Metabolic Flux Analysis of Plastidic Isoprenoid Biosynthesis in Poplar Leaves Emitting and Nonemitting Isoprene   A. Ghirardo et al.
19. Inter‐ and intra‐specific variability in isoprene production and photosynthesis of Central European oak species R. Steinbrecher et al.
20. Deoxyxylulose 5-Phosphate Synthase Does Not Play a Major Role in Regulating the Methylerythritol 4-Phosphate Pathway in Poplar D. González-Cabanelas et al.
21. Molecular understanding of the suppression of new-particle formation by isoprene M. Heinritzi et al.
22. Cloud Processing of Secondary Organic Aerosol from Isoprene and Methacrolein Photooxidation C. Giorio et al.
23. Isoprene function in two contrasting poplars under salt and sunflecks K. Behnke et al.
24. New Particle Formation and Growth in an Isoprene-Dominated Ozark Forest: From Sub-5 nm to CCN-Active Sizes H. Yu et al.
25. Multiphase Chemistry at the Atmosphere–Biosphere Interface Influencing Climate and Public Health in the Anthropocene U. Pöschl & M. Shiraiwa
26. Suppression of anthropogenic secondary organic aerosol formation by isoprene K. Li et al.
27. Secondary organic aerosol from VOC mixtures in an oxidation flow reactor E. Ahlberg et al.
28. Observations of new aerosol particle formation in a tropical urban atmosphere R. Betha et al.
29. Secondary aerosol formation from stress-induced biogenic emissions and possible climate feedbacks T. Mentel et al.
30. Hydrocarbon composition of tropospheric aerosol in the south of Western Siberia N. Voronetskaya et al.
31. Connection of organics to atmospheric new particle formation and growth at an urban site of Beijing Z. Wang et al.
32. Contribution of New Particle Formation to Cloud Condensation Nuclei Activity and its Controlling Factors in a Mountain Region of Inland China M. Cai et al.
33. The sensitivities of ozone and PM2.5 concentrations to the satellite-derived leaf area index over East Asia and its neighboring seas in the WRF-CMAQ modeling system J. Park et al.
34. Effect of land‐use change and management on biogenic volatile organic compound emissions – selecting climate‐smart cultivars M. ROSENKRANZ et al.
35. Increasing atmospheric CO2 reduces metabolic and physiological differences between isoprene‐ and non‐isoprene‐emitting poplars D. Way et al.
36. Air quality and health effects of biogenic volatile organic compounds emissions from urban green spaces and the mitigation strategies Y. Ren et al.
37. Global Modeling of Secondary Organic Aerosol With Organic Nucleation J. Zhu & J. Penner
38. A new plant chamber facility, PLUS, coupled to the atmosphere simulation chamber SAPHIR T. Hohaus et al.